Afterbody/Nozzle Pressure Distributions of a Twin-Tail Twin-Engine Fighter With Axisymmetric Nozzles at Mach Numbers From 0.6 to 1.

NASA Technical Paper 359 Afterbody/Nozzle Pressure Distributions of a Twin-Tail Twin-Engine Fighter With Axisymmetric Nozzles at Mach Numbers From.6 to 1 David J. Wing May 1995

NASA Technical Paper 359 Afterbody/Nozzle Pressure Distributions of a Twin-Tail Twin-Engine Fighter With Axisymmetric Nozzles at Mach Numbers From.6 to 1 David J. Wing Langley Research Center Hampton, Virginia National Aeronautics and Space Administration Langley Research Center Hampton, Virginia 23681-1 May 1995

Available electronically at the following URL address: http://techreports.larc.nasa.gov/ltrs/ltrs.html Printed copies available from the following: NASA Center for AeroSpace Information National Technical Information Service (NTIS) 8 Elkridge Landing Road 5285 Port Royal Road Linthicum Heights, MD 219-2934 Springfield, VA 22161-2171 (31) 621-39 (73) 487-465

Contents Summary.......................................................................... 1 Introduction....................................................................... 1 Symbols.......................................................................... 2 Apparatus and Methods.............................................................. 2 Wind Tunnel..................................................................... 2 Support System................................................................... 2 Model.......................................................................... 3 Instrumentation................................................................... 3 Test Conditions, Transition Control, and Data Uncertainty................................... 4 Data Reduction and Presentation of Results.............................................. 4 Discussion of Results................................................................ 5 Effect of Tail Position at M =.8, α =, and NPR = 3.................................. 5 Effect of Tail Position at M = 1, α =, and NPR = 3.................................. 6 Effect of Nozzle Pressure Ratio...................................................... 7 Effect of Mach Number............................................................. 7 Effect of Angle of Attack........................................................... 8 Comparisons With Computational Fluid Dynamics Solutions............................... 9 Conclusions....................................................................... 9 References....................................................................... 1 Tables........................................................................... 11 Figures......................................................................... 114 v

Summary Distributions of static pressure coefficient over the afterbody and axisymmetric nozzles of a generic, twintail twin-engine fighter aircraft were obtained in the Langley 16-Foot Transonic Tunnel. Three vertical-tail longitudinal positions and two horizontal-tail longitudinal positions were tested for a total of six aft-end configurations. Static pressure coefficients were obtained at Mach numbers of.6,.8,.9, and 1, angles of attack of, 4, and 8, and nozzle pressure ratios ranging from jet-off to 8. Pressure measurements were made at approximately 15 locations on the afterbody, interfairing, and nozzles. Additionally, limited computational modeling of the flow field about this model was performed using a three-dimensional Reynolds-averaged Navier-Stokes code. The results of this investigation indicate that the influence of the vertical and horizontal tails is not limited to the vicinity of the tail-afterbody juncture. The pressure distribution affecting the aft-end drag is influenced more by the position of the vertical tails than by the position of the horizontal tails. Forward positioning of the vertical tails reduces the aft-end drag by moving the pressure deficit between the tails to a surface with a more shallow boattail angle and less closure area. At supersonic free-stream conditions, aft vertical- or horizontal-tail positions produce low static pressures on the nozzle surfaces, and this results in higher aft-end drag attributable to rapid aft-end area distribution closure. Transonic effects strong enough to produce a local shock wave between the vertical tails are evident at a Mach number of.9. Increasing the angle of attack can have the effect of producing transonic tail-interference effects at lower free-stream Mach numbers than at an angle of attack of. Predictions of surface pressure coefficient from computational modeling of this geometry showed excellent agreement with experimental results with the exception of the recovery pressure level downstream of the upper surface transonic shock at a Mach number of.9 and vertical-tail-position effects on pressure coefficients on the windward side of the aircraft. Introduction Investigations of generic fighter configurations have shown that the relative locations and placement of the empennage surface on the afterbody have a significant effect on aft-end drag (refs. 1 6). These investigations have covered single-engine configurations (refs. 1 4) and twin-engine configurations with both single and twin vertical tails (refs. 5 and 6). Studies of tailinterference effects are of significant value because aftend drag (i.e., 35 percent aft of the aircraft) has been shown to contribute up to 5 percent of the total aircraft drag at transonic conditions (ref. 7). A series of wind-tunnel tests were previously conducted on an isolated fuselage-nozzle combination with propulsion simulation to investigate empennage effects on aft-end drag of a single-engine configuration (refs. 1 3). In these tests, total aft-end drag in the transonic speed range as measured by the force balance was reduced by staggering the vertical and horizontal tails longitudinally. The extent of the tail-interference effects could not be determined, however, without detailed pressure measurements in the vicinity of the tails. Therefore, additional tests were conducted to acquire approximately 3 pressure measurements distributed around the afterbody and nozzles (ref. 4). These pressure distributions showed that tail-interference effects extended around the entire afterbody and were not confined to the regions close to the tail surfaces. An additional benefit of having the mapping of the pressure distribution was the utility of the data for validation of computational fluid dynamics (CFD) codes. The permutations in aft-end geometry can be extensive, and using reliable CFD tools to determine the drag characteristics of these afterbodies can be an efficient means of evaluating the configurations. For CFD code validation, the calculations must be compared with experimentally determined data to determine the reliability of the code for such applications. Reference 4 includes such comparisons for two types of theoretical prediction codes. Additionally, the model from reference 4 was used as a baseline configuration in a CFD study in reference 8 to reduce total aft-end drag by afterbody reshaping. Results from this study were used to fabricate new wind-tunnel models for validation. Wind-tunnel studies of a generic twin-engine fighter configuration were also conducted with emphasis on aftend drag characteristics. As in the single-engine studies, the force balance was the primary source of data (refs. 5 and 6). The variables included single and twin vertical tails, the relative positioning of vertical and horizontal tails, vertical-tail toe angle (the pointing angle in the horizontal plane), vertical-tail cant angle (the tilt angle from the vertical plane), and vertical-tail camber. Force balance data indicated that significant reductions in aft-end drag were attainable through tailoring of the aft-end geometry. Again, for purposes of determining the extent of tail interference around the afterbody and providing a database for CFD code validation, the model used in these investigations was reinstrumented with pressure orifices and a limited number of configurations were retested. The pressure distributions measured in this test are presented in this report.

The model was tested in the Langley 16-Foot Transonic Tunnel, and the Mach number range of the test was.6 to 1. Propulsion was simulated by exhausting highpressure room-temperature air through twin, axisymmetric nozzles with a geometry representing a dry power setting (no afterburning). The nozzle pressure ratio (NPR) range for an angle of attack of was jet-off to 8. The model was also tested at angles of attack of 4 and 8, with the NPR set at both jet-off and design (fully expanded) conditions. Twin, uncambered vertical tails were tested at toe and cant angles of in three longitudinal positions: forward, middle, and aft. Horizontal tails at incidence angles of were tested in the corresponding positions of middle and aft, resulting in a total of six geometric configurations. Approximately 15 static pressure measurements were acquired on the surface at each test condition. Additionally, limited computational modeling of the flow field about this model was performed using PAB3D, a three-dimensional (3D) Reynolds-averaged Navier-Stokes code developed at the Langley Research Center. Comparisons of computed surface pressure coefficients with experimental results are presented for two configurations at transonic free-stream conditions. Symbols C D total aft-end drag coefficient, referenced to wing area of support system C L aft-end lift coefficient, referenced to wing area of support system pressure coefficient, ( p s p ) q * critical pressure coefficient for which local flow is sonic, un estimated uncertainty in pressure coefficient pressure coefficient with horizontal tail in mid position subtracted from pressure coefficient with horizontal tail in aft position c d max chord length, in. maximum nozzle diameter at nozzle connect station, 3.88 in. L M NPR p s p tj, p q r length of model from nose to nozzle exit, 68.8 in. Mach number nozzle pressure ratio, p tj, p surface static pressure, psi jet total pressure, psi free-stream static pressure, psi free-stream dynamic pressure, psi nozzle radius, in. r max maximum nozzle radius at nozzle connect station, d max 2 t airfoil thickness, in. x axial distance from model nose, in. x L vt x L of vertical-tail root leading edge α forebody angle of attack, deg θ meridian angle on nacelles or nozzles measured outboard from centerline on top surface, deg Λ le sweep angle at leading edge, deg Abbreviations: BL buttock line CFD computational fluid dynamics FS fuselage station fwd forward HTAIL horizontal-tail position mid middle TS tunnel station VTAIL vertical-tail position WL waterline Apparatus and Methods Wind Tunnel The test was conducted in the Langley 16-Foot Transonic Tunnel, which is a closed-circuit, atmospheric wind tunnel with an octagonal, slotted test section. (See sketch in fig. 1.) The Mach number range of the tunnel is.1 to 1.3 and is continuously variable. Supersonic Mach numbers are achieved by removing air from a plenum chamber surrounding the slotted test section, thus allowing more tunnel air to expand into the chamber. Reynolds number per foot, which is a function of Mach number and atmospheric conditions, ranges from approximately 3 1 6 at M =.6 to 4 1 6 at M = 1. A complete description of the tunnel and its subsystems is provided in reference 9. Support System The support system used for this model is the bifurcated wingtip support system. A photograph is shown in figure 2 of both the forward part of the support system and the model installed in the tunnel. The support system consists of a pair of support booms extending forward from the main tunnel strut and attaching to the wingtips of the model. The support booms are capable of internally housing instrumentation cables and tubing and 2

passing high-pressure air to the model for propulsion simulation. This support system, which was designed to provide minimal support interference to the model while allowing a more realistic aerodynamic flow field to develop over the afterbody (the area of interest), was superior to a blade-mounted support system. Although no supportinterference tests have been conducted using this system, support-interference results on a similar wingtip support system (ref. 1) indicated that relatively low levels of interference exist compared with that of other propulsion support systems. The wingtip support system also provided the ability to test models at high angles of attack by allowing the wing incidence angle to be varied with respect to the support booms, although this capability was not utilized in the present study. The model was placed at angles of attack by rotation of the main support strut to which the wingtip support system was attached. Model The model represented a generic fighter design with faired-over inlets and a twin-engine exhaust system with axisymmetric nozzles. A sketch of the model with the major components labeled is shown in figure 3(a). The wing was mounted high on the fuselage with a leadingedge sweep of 45, a taper ratio of, an aspect ratio of 2.32, and a cranked trailing edge. The airfoil was symmetrical, and the thickness ratios from the wing-fuselage junction at BL 5. to BL 11. (t/c =.66 to.77, respectively) were typical of fighter aircraft. From BL 11. to the support booms, wing thickness ratio increased from.77 to.1. (The thickness was held constant while the chord was reduced.) This constant thickness provided structural support for the model and permitted the transfer of instrumentation cables and highpressure air from the booms to the model propulsion system. The force balance used in earlier tests of this model was replaced by a dummy balance (a solid 2-in-diameter steel rod). The center fuselage was essentially rectangular in cross section, with a constant width and height of 1 in. and 5 in., respectively. The corners were rounded to a radius of 1. in. The maximum cross-sectional area of the fuselage was 49.14 in 2, and the forebody was vertically and horizontally symmetric (i.e., no canopy) and had faired-over inlets, as is typical for exhaust-flow simulation models. The afterbody represented a smooth blend from the rectangular fuselage cross section (FS 476) to the axisymmetric nozzle connect station (FS 651). The afterbody lines were chosen to be typical of current fighter designs with closely spaced engine nacelles centered at BL ±2.17. Propulsion was simulated by routing high-pressure room-temperature air (54 R entering the nozzles) through the support system to the model and allowing it to exhaust through the nozzles. A sketch showing the internal details of the model propulsion system is shown in figure 3(b). A choke plate, flow straightener, four total pressure probes, and a total temperature probe were located in ducting immediately upstream of each nozzle. The system was designed with symmetrical flow paths to provide equal flow rates to the two nozzles. The nozzles used in this test represented a dry power setting with an expansion ratio (nozzle exit area divided by throat area) of 1.16 and a throat area of 2.69 in 2 for each nozzle. A sketch of the nozzle geometry is shown in figure 3(c). The model was tested with twin, uncambered vertical tails with chord planes positioned at BL ±4. on the afterbody. (See geometric details of vertical tails in fig. 3(d).) The leading-edge sweep was 36.52, the taper ratio was.375, and the aspect ratio was 1.514. The tails were tested in three longitudinal positions, referred to as fwd (forward), mid (middle), and aft (rearward), corresponding to root leading-edge positions of FS 5., FS 53.81, and FS 57.31, respectively. Fillers were contoured for each tail location to fair the tails into the afterbody. The tails in the aft position, however, were not faired to the nozzle, and this resulted in a gap between the nozzles and the tails. The horizontal tails were tested at incidence with the chord plane positioned at WL.. The geometric details of the horizontal tails are shown in figure 3(e). The leading-edge sweep was 5, the taper ratio was.175, and the aspect ratio was 2.564. The horizontal tails were tested in two longitudinal positions corresponding to the middle and aft positions of the vertical tails (root leading edges at FS 53.81 and FS 57.31, respectively). Fillers were also used to contour the horizontal tails to the afterbody at each tail location. The longitudinal positions of the vertical and horizontal tails tested are shown in figure 3(f). The three vertical-tail positions and the two horizontal-tail positions result in a total of six configurations tested, and these were the same locations as those tested in reference 5. Instrumentation Static pressures were measured on the external surfaces of the afterbody, nozzles, and engine interfairing, and the locations of the measurement stations are listed in table 1. Approximately 15 pressure orifices were distributed around the model. Because of the density of the pressure measurements desired, symmetry was assumed in the flow field about the right and left halves of the model, and pressure orifices were distributed on both halves of the model to accommodate the internal 3

plumbing. The orifices were routed to electronic pressure-scanning modules mounted in the fuselage with a range from to 3 psia. Angle of attack was measured by an accelerometer located in the forebody, and a correction of.1 was made for the tunnel upflow angle based on upflow measurements of similar models in the tunnel. Deflections of the dummy balance under load would result in a difference in afterbody angle of attack as compared with the value measured in the forebody. A deflection was estimated from the lift and pitching-moment characteristics of this model published in reference 5 at the worst case condition of α = 8 at M = 1 with the horizontal tails in the aft position. Under these conditions, the afterbody was estimated to deflect.15, thereby reducing the afterbody angle of attack. No corrections for afterbody deflections, however, were applied to the angles of attack tabulated in this report. Test Conditions, Transition Control, and Data Uncertainty Data were taken at Mach numbers of.6,.8,.9, and 1. At each Mach number, the NPR was varied between jet-off and 8 at an angle of attack of. Data at angles of attack of 4 and 8 were also taken at each Mach number with both the jet off and NPR = 3 (near the nozzle design pressure ratio of 3.54, the condition of fully expanded flow). To ensure proper boundary-layer transition,.1-inwide strips of No. 12 silicon carbide grit, sparsely distributed in a lacquer film, were applied to the model forebody section, the upper and lower surfaces of the wings and horizontal tails, and the left and right sides of the vertical tails, as recommended in reference 11. The forebody strip was placed in a ring 1 in. aft of the nose tip, the wing strips were placed 1 in. aft of the leading edge measured in the streamwise direction, and the strips for the horizontal and vertical tails were placed 1/2 in. aft of the leading edge. An analysis was performed to determine the uncertainty of the pressure coefficient data. The dominant adverse effect on the data accuracy is the temperature dependency of the electronic pressure-scanning modules. As the modules heat up during a tunnel run, the calibrations tend to lose their precision; therefore, to minimize this effect, the modules are recalibrated with the tunnel running at each new Mach number. Because an uncertainty exists in the values used to calculate the pressure coefficient, including the temperature effect on the modules, the uncertainty of the pressure coefficient has been estimated for each Mach number tested, and the results are presented in the following chart: M.6, un ±.16.8 ±.11.9 ±.1 1 ±.8 The uncertainty of the angle-of-attack measurement is estimated to be ±.5 and is limited primarily by the knowledge of the tunnel upflow angle. The bias associated with deflections of the afterbody under load were discussed in the "Instrumentation" section of this report. Data Reduction and Presentation of Results Each data point represents the average of 5 sec of data taken at a rate of 1 samples/sec. This average value was used to compute the steady-state results. All the data presented in this report represent the pressure coefficient distribution over the afterbody and nozzles of the model, or the change in this coefficient as the tail positions are moved. A detailed description of the data reduction procedures is presented in reference 12. A complete listing of the data from this investigation is included in tables 2 7. Each of these six tables corresponds to an aft-end empennage configuration. Freestream static and dynamic pressures are included in the data tables for the purpose of CFD modeling of this experiment. To illustrate certain trends in the data and the effect of various parameters, selected data have been plotted to aid in the discussion of results. Force data on the same configurations were presented by Leavitt in reference 5 and will be referred to in the discussion. Two basic formats for plotting data were used: a rectangular format and a polar format. The rectangular plots show the longitudinal pressure distributions along the model and require five pages of plots to present all the orifice rows. The polar plots show the circumferential pressure distribution around one of the nozzles at five stations along the length of the nozzle. Although the measurements were distributed between the two nozzles, they were combined in the polar plots onto the left nozzle for the presentation of data. Therefore, the horizontal tail is on the left-hand side of each polar plot and the interfairing is on the right-hand side. To aid in locating the longitudinal positions of the vertical and horizontal tails relative to the scale used for plotting data in this report, the tails have been superimposed on sample grids in figure 4. The angular positions of the pressure orifice rows are illustrated in figure 5. The rows of orifices on the model were not placed as shown but, assuming flow symmetry about the centerline vertical plane, were distributed between the nacelles to best use the space in the model. 4

Discussion of Results Effect of Tail Position at M =.8, α =, and NPR = 3 Afterbody and nozzle pressure distributions for each of the tail-position combinations at M =.8, α =, and NPR = 3 (near design) are shown in figures 6 and 7. Polar plots of the pressure distributions around the nozzles are shown in figure 8 for the same conditions. The angle θ represents the circumferential angle about the nozzle axis measured outboard from the top position on the nacelle. As shown in figures 6(a) and 7(a), a characteristic pressure deficit forms at θ = as the airstream is accelerated between the vertical tails. The location of the root leading edge corresponding to the vertical-tail position is included in the key. Moving the tails aft shifts the pressure deficit aft. Although pressure data on the upper surface of the interfairing (on the aircraft centerline) is limited, a pressure deficit in this region becomes evident at x L =.898 as the vertical tails are moved aft (figs. 6(e) and 7(e)). The surface boattail angles on the nacelles and interfairing increase as x L increases, and this results in an increase in aft-projected area, particularly for the interfairing. Shifting the pressure deficit aft should increase the total aft-end drag. This effect is confirmed by the drag data published by Leavitt on the same configuration (fig. 36(a) in ref. 5). At M =.8 and α =.1, total aft-end drag coefficient increased by.1 (a 14-percent increase) as the vertical tails were moved from the forward position to the aft position. Lift and drag coefficients in reference 5 were referenced to the wing area of the support system. The effect of vertical- and horizontal-tail positions on afterbody and nozzle pressure distributions is not limited to the tail-afterbody juncture regions but extends to all circumferential positions around the model. For instance, as shown in figure 6(c), shifting the vertical tails aft affects the pressure distributions for a range of θ from 18 to 24, positions which are on the opposite side of the nacelle from the vertical tail. A similar result was reported by Henderson and Burley on a singleengine afterbody (ref. 4) in which the influence of tail position was found to extend completely around the afterbody. As mentioned earlier, the most predominant effect of shifting the position of the vertical tails aft is to shift the pressure deficit between the tails aft ( 27 θ 45 ). As shown in figures 6(c), 6(d), 7(c), and 7(d), shifting the vertical tails from the forward position to the mid position also reduces the pressure coefficient on the inboard surface of the nozzle between the nacelles ( 225 θ 315 at x L >.948). However, the effect of shifting the vertical tails from the mid to the aft position is generally a reduction in the pressure coefficients on the afterbody rather than on the nozzles. Immediately upstream of the nozzle connect station ( x L =.948), the flow around the afterbody passes through an expansion characterized by a decrease in surface static pressure coefficient. The subsequent pressure recovery on the nozzle ( x L >.948) provides pressure coefficients over most of the nozzle surface that are greater than zero, a result indicating that the nozzle external surface (neglecting skin friction) is producing negative drag (i.e., thrust). In fact, Leavitt in reference 5 determined that nozzle drag was negative for all configurations operating at subsonic speeds and typical jet pressure ratios except for the configuration with both vertical and horizontal tails in the aft position. In that case, as seen in figure 7(a) (θ = 45 ) and figure 7(b) (θ = 9 ) in the vicinity of the vertical tail, the expansion region extended farther aft on the nozzles such that the net load from the expansion and recovery on the nozzle was a positive drag. A similar trend for the configuration with aft vertical tails and mid horizontal tails is shown in figures 6(a) (θ = 45 ) and 6(b) (θ = 9 ). However, the overall pressure coefficient levels on the nozzles is greater with the result that positive pressure coefficients prevail and cause negative nozzle drag. Flow expansion, which results in negative pressure coefficients on the model surface, increases the aft-end drag if acting over an aft-facing area. For the current model, the expansion is most severe at θ = 225 and 24 (see fig. 6(c)), which corresponds to the region on the inboard underside of the model near the interfairing. (See fig. 5.) The combined boattailing of the interfairing and nacelle in this location results in a significant acceleration of the flow and, therefore, lower pressures. Polar plots showing the circumferential pressure distribution around the nozzle are shown in figure 8. The data are presented as distributions around the left-hand nozzle such that the interfairing is on the right and the horizontal tail is on the left. The plots show two distinct features, a high-pressure region above the interfairing at x L =.951 and a pressure reduction in the upper left quadrant of the nozzle when the vertical tail is moved to the aft position. The pressure reduction, which is a result of the expansion region extending farther aft on the nozzle, was discussed previously. The pressurization near the interfairing is probably a pressure recovery from the strong expansion which occurs between the vertical tails ahead of the nozzle. Figures 6(e) and 7(e) show pressure coefficients on the top and bottom interfairing surfaces, and a pressure recovery on the top surface between the aft two pressure taps is evident for the mid and aft positions of the vertical tail. 5

The effect of moving the horizontal tails from the mid position to the aft position at M =.8, α =, and NPR = 3 is summarized in figure 9. The data are presented as, which is the aft-position minus the mid-position. Therefore, a positive represents a beneficial effect of moving the tails aft. Note that calculations of were made only for pressure orifices that were not covered by the tails in either position. As can be seen, most effects are small. The most significant effects are seen in the regions near the horizontal tails ( 45 θ 135 ). An area of negative can be seen over the nozzle in the vicinity of the horizontal tail ( 45 θ 135 at x L.925), a result indicating lower static pressures in this region. Corresponding positive values of can be seen farther forward (.8 x L.9), a result indicating that low static pressure, or accelerated flow, follows the horizontal tail as it is moved. In general, however, the influence of the horizontal-tail position on afterbody pressure distributions affecting aft-end drag is not as strong as that of the vertical-tail position. Effect of Tail Position at M = 1, α =, and NPR = 3 Afterbody and nozzle pressure distributions at M = 1, α =, and NPR = 3 (near design) are shown in figures 1 and 11, and polar plots of the nozzle pressure distributions are shown in figure 12 at the same conditions. The pressure distribution for the supersonic flow field is different in character from the subsonic flow field in many respects. The influence of the shocks emanating from the leading and trailing edges of the tails can be seen in the pressure coefficient data near the tail surfaces at θ =, 45, and 9 (the horizontal-tail leading-edge shock occurred only at θ =9 ) as a sharp increase in pressure coefficient. (For example, see the circular data symbols in fig. 1(a) at θ =, x L =.738, and x L =.898.) Pressure distributions upstream of the leading-edge shocks are independent of tail position, as expected in a supersonic flow field. Pressure coefficients on the lower side of the model ( 135 θ 255 ) show almost no effect of tail position up to the nozzle ( x L =.948). The flow at the nozzle recovers pressure through a shock, and tail-position effects can be seen beyond this point. Flow separation downstream of the shock on the nozzle is often evident, particularly for the configuration with mid horizontal and vertical tails (the square data symbols), which has a relatively flat pressure distribution over the last three or four pressure taps. This configuration has both the horizontal- and vertical-tail closures occurring over a small range of x L as compared with the other two configurations. (See fig. 4.) The flow over the afterbody expands to a lower pressure at M = 1 than at M =.8, which should result in higher total aft-end drag. Additionally, the pressure recovery at the nozzle does not generally result in any pressurized regions ( > ) that would reduce afterbody/nozzle drag, as was the case at subsonic freestream conditions. Leavitt (ref. 5) measured a significantly higher aft-end drag at supersonic conditions than at subsonic conditions, as further support of the pressure data findings. Additionally, he determined that moving the vertical tails from the forward position to the mid position (with the horizontal tails in the mid or aft positions) at M = 1 had no effect on total aft-end drag. Moving the vertical tails to the aft position, however, resulted in a total aft-end drag increase. This result is consistent with the pressure data in figures 1 and 11 in which the pressure distributions for the forward and mid vertical-tail positions typically cross each other at some point along the nozzle ( x L>.948), thus resulting in a net-equivalent contribution to drag. The pressure distribution for the aft vertical-tail position, however, is generally at much lower pressures along the nozzle than for the other tail positions. This results in a higher drag, which is attributable to the area distribution of the model. Moving the vertical tail aft modifies the aircraft area distribution such that the closure at the aft end is more rapid and causes a larger wave drag. Polar plots of the nozzle pressure distributions (plotted for the left nozzle) are shown in figure 12 for M = 1, α =, and NPR = 3. An asymmetric flow field over the nozzles is evident. Disturbances tend to be concentrated inboard immediately downstream of the interfairing trailing edge ( x L =.951 and.963). Low pressures in this region are seen for the vertical tail in the aft position. Pressures in this region also decrease as the horizontal tail is moved aft. The complex pressure distributions are the result of an interaction of nozzle pressurerecovery shocks, nozzle flow separation, vertical-tail trailing-edge shocks, and interfairing trailing-edge shocks. Although sufficient pressure data are not available for confirmation, separation effects may also be present on the interfairing. The effect of moving the horizontal tail aft at M = 1 is summarized in figure 13. The change in pressure coefficient ( ) as the tail is moved aft has been plotted for each vertical-tail position. Regions of favorable effects are generally located between.875 x L.95. The most adverse effects are generally limited to regions aft of the nozzle-connect station ( x L.948) on the inboard surface of the nozzle ( 255 θ 315 ). Strong expansions accompanied by strong recovery shocks in this region can be seen relative to the mid horizontal-tail location. (See fig. 13(d).) As noted earlier when discussing moving the vertical tails 6

aft, moving the horizontal tails aft increases the crosssectional area near the rear of the aircraft, thus increasing the rate of closure which adversely affects the wave drag of the aircraft at supersonic speeds. Effect of Nozzle Pressure Ratio The effect of varying nozzle pressure ratio is shown in figures 14 17 for two configurations identified by Leavitt (ref. 5) as having low and high aft-end drag. The first configuration (horizontal tails in the mid position and vertical tails in the forward position (mid-fwd)) was determined to have low total aft-end drag. The second configuration (both horizontal and vertical tails in the aft position (aft-aft)) was determined to have high total aftend drag. Figures 14 and 15 show pressure distributions at M =.8 for the mid-fwd and aft-aft configurations, respectively, and figures 16 and 17 show similar data at M = 1. The general effect of increasing NPR at M =.8 (figs. 14 and 15) is to pressurize the afterbody and nozzle surfaces. Leavitt determined that for both tail position configurations (see figs. 18(f) and 18(l) in ref. 5), the effects of increasing nozzle pressure ratio on total aft-end drag were a large decrease in drag with initial jet operation, a very slight increase in drag as NPR was increased to fully expanded jet conditions (design NPR = 3.54), and a moderate decrease in drag as NPR was increased through the underexpanded jet range (NPR greater than design). The pressure distributions support the measured drag data. The largest beneficial effect on afterbody/nozzle pressure distributions is the initial operation of the jet (NPR = 2). Increases in pressure coefficient are significant around the nozzles and extend as far forward as x L =.854. (See fig. 14(c) at θ = 18.) In other words, the influence of the NPR extends over the aft 15 percent of the aircraft. Increasing the NPR from 2 to 4 has no noticeable effect on pressure distributions, and this corresponds to the minimal change in drag reported by Leavitt. Increasing the NPR to values greater than 4 results in further increases in static pressure coefficient on the afterbody and nozzles, thus corresponding to the reduction in drag measured by Leavitt. The drag reduction with initial jet operation is attributable to base bleeding in the nozzle exit region. The slight drag increase as NPR is increased to the fully expanded flow condition is the result of increased entrainment of external flow by the nozzle flow, and this entrainment results in higher flow velocities (lower pressure and higher skin friction) over the external surfaces. The decrease in drag as the jet becomes underexpanded is attributable to plume effects as the plume becomes large, and this results in a compression near the nozzle exit and pressurization of the external nozzle surfaces upstream of the plume. The effect of NPR at M = 1 is shown in figures 16 and 17. The effects of NPR at supersonic free-stream conditions are generally limited to the nozzle surface only (the last 5 percent of the aircraft) and do not extend forward to the afterbody. The lowest pressures on the nozzles generally correspond to either the jet-off condition (circular symbols) or the nearly fully expanded condition (diamond symbols). This behavior is consistent with the drag data measured by Leavitt in which the drags at these two conditions were essentially equal in magnitude and had the highest values throughout the NPR range tested. Increases in NPR above design ( NPR > 3.54) result in external surface pressurization on the nozzle and a reduction in aft-end drag. Effect of Mach Number Pressure distributions for the same two tail configurations (mid-fwd and aft-aft) are plotted in figures 18 and 19, respectively, for Mach numbers of.6,.8,.9, and 1. The data trends at the subsonic ( M.8) and supersonic (M = 1) free-stream Mach numbers have previously been discussed. The pressure coefficient distributions at M =.6 and.8 are essentially the same. However, transonic effects between the vertical tails (θ = ) produce a greater reduction in pressure coefficient at M =.8 than at M =.6. This region would be expected to show the first transonic effects on the model because the flow is accelerated both by the fuselage and the vertical tails. For the mid-fwd configuration shown in figure 18, the effect of the transonic behavior on drag is minimal because the aft-facing area in this region is small. However, an increase in afterbody lift and nosedown aircraft pitching moment would be expected. The pressure distribution confirms the trends in the force data presented by Leavitt (in fig. 36(a) in ref. 5), which showed an increase in lift coefficient of approximately.2 and a very small increase in drag coefficient as Mach number was increased from.6 to.8. Pitchingmoment characteristics are confirmed in figure 7(f) of reference 5. For the aft-aft configuration shown in figure 19, the accelerated region is located in an area of higher boattail angle, and it would therefore be expected to result in a larger drag increase than the mid-fwd configuration as Mach number is increased from.6 to.8. The force data in reference 5 indicate an increase in drag for the aft-aft configuration over the mid-fwd configuration (compare figs. 36(a) and 37(a) in ref. 5); the drag coefficient is increased approximately.5 as Mach number is increased from.6 to.8. Lift coefficient, however, which would be expected to increase with this change in Mach number, decreases by approximately.2. This unexpected result indicates that the increase in lift from the transonic flow acceleration between the vertical tails 7

is offset by a decrease in lift elsewhere on the afterbody. For a range of θ from 9 to 27, lower static pressures result in a loss of lift and an increase in nose-up pitching moment. Reductions in static pressure can be seen at θ = 135 (for values of x L between.869 and.974) and at θ = 18, 225, and 24 (for values of x L between.898 and.951). An additional decrease in lift can be seen at θ = (in this case an increase in static pressure at x L between.781 and.854). A more significant transonic effect is seen in figures 18 and 19 at M =.9. At θ =, the flow is accelerated to supersonic speeds between the vertical tails * ( =.188 for M =.9). In both tail arrangements, * the critical pressure ratio ( ), an indication of sonic velocity, is reached near the station of maximum vertical-tail thickness. (Compare figs. 18(a) and 19(a) with fig. 4.) For the mid-fwd configuration, a shock is formed approximately at the station of the vertical-tail trailing edge, and this results in subsonic velocities and also in pressure coefficients aft of this location that are generally greater than those at lower Mach numbers. In reference 5 for the mid-fwd configuration, Leavitt reported an increase in C D of approximately.1 as Mach number was increased from.8 to.9 and roughly equivalent lift coefficients. For the aft-aft configuration, C D increased by.5 and C L decreased by. As can be seen in figure 19(a), the pressure coefficients at θ = for M =.9 are greater than those at M =.8 over most of the upper surface of the afterbody, thus confirming the lower lift reported by Leavitt. Polar plots of the nozzle pressure distributions are shown in figure 2 for the same configurations (mid-fwd and aft-aft) at the same free-stream conditions. Mach number effects at subsonic speeds are concentrated in the region near the interfairing ( x L =.951, inboard or right side of plot) and may indicate the beginning of flow separation from the nozzle. The high-drag nature of supersonic flow relative to subsonic flow can also be seen, as shown by the low pressure coefficients around the nozzles at M = 1. The lack of pressure recovery to positive values of also contributes to the large difference between subsonic and supersonic drag. Effect of Angle of Attack The effect of increasing angle of attack on the pressure distributions of the mid-fwd tail configuration is shown in figure 21 at M =.8 and NPR = 3, and similar data for the aft-aft tail configuration are shown in figure 22. At these conditions, the dominant effects of increasing angle of attack are to reduce the pressure on the leeward side of the model as far aft as x L =.9 and to increase the pressure on the windward side of the model as far aft as x L =.95. For the case of the midfwd configuration (fig. 21(a)), the flow between the vertical tails (θ = ) is accelerated to sonic conditions at * α =4 ( = 35 at M =.8) and to supersonic conditions at α =8. At this condition, a shock forms aft of the pressure orifice at x L =.825 to recompress the flow. The significant reduction in leeward pressure coefficients seen at θ = (as compared with the increase in pressure on the windward side) as angle of attack is increased from to 8 results in an increase in total aftend drag coefficient of.95 at M =.8, as reported by Leavitt. The pressure coefficients for the aft-aft configuration are not as strongly affected by angle of attack (fig. 22(a)) as for the mid-fwd configuration. A relatively constant reduction in static pressure at θ = is indicated as far aft as x L =.9 as angle of attack is increased. The region between the vertical tails does not exhibit the supersonic flow acceleration seen for the mid-fwd configuration, thereby indicating a smaller effect of angle of attack on aft-end drag for the aft-aft configuration. In reference 5, Leavitt reported a total aft-end drag increase of approximately.62 at M =.8 as angle of attack was increased from to 8, which is a smaller drag increase than was measured for the mid-fwd configuration, thus confirming the results indicated by the pressure distributions. In the study of the afterbody/nozzle aerodynamic characteristics of this model (ref. 5), Leavitt found only one apparent trend in total aft-end drag with the model at positive angle of attack. At α =8 and M >.6, the aft vertical-tail location provided a significant reduction in aft-end drag over the forward and mid locations with horizontal tails in the mid or aft positions. The pressure distributions for the mid horizontal-tail location at M =.9, α =8, and NPR = 3 are presented in figure 23. As the vertical tails are moved aft, the static pressure coefficient on the nozzles is reduced and the pressure deficit between the vertical tails is moved aft with the tails, both being factors that would typically result in a drag increase. The pressure deficit, however, is reduced in severity, both in the magnitude of pressure reduction and in the longitudinal extent of the deficit. Additionally, the amount of closure area over which the low pressure acts is reduced. The sum effect could be not only a reduction in drag but also a reduction in lift as well, confirmed by the force data presented by Leavitt. The smaller pressure deficit of the aft vertical-tail position is a result of the influence of the final closure of the model, which imposes a pressure recovery on the accelerating flow between the tails. This result probably accounts for the trend identified by Leavitt. 8

Comparisons With Computational Fluid Dynamics Solutions Computational fluid dynamics solutions for the surface pressures about this model were obtained by using the PAB3D (version 1) code developed in the former Propulsion Aerodynamics Branch at the Langley Research Center. PAB3D is a multiblock/multizone state-of-the-art code that solves the three-dimensional, Reynolds-averaged Navier-Stokes equations with either a time-dependent or space-marching technique. The code, described in reference 13, was developed to study the integration of the propulsion system and the airframe, but it is currently applicable to general aerodynamic problems. In this application, the time-dependent technique was applied and a combination of turbulence models was used. The Baldwin-Lomax algebraic turbulence scheme was used in the upstream blocks containing the nose and the faired inlet. The remaining blocks used the Jones-Launder k-ε turbulence model. In addition, laminar viscosity was used in the first few grid planes of the internal nozzle block. Eleven blocks in all were used to model the aircraft in half-plane symmetry about the longitudinal axis. Grids were generated for two empennage arrangements: vertical tails in the mid position and vertical tails in the forward position. In both cases, the horizontal tails were in the mid position. The grids for this model contained approximately 1.5 million grid points for each empennage arrangement and were generated using GRIDGEN (version 8 in ref. 14). The computational model geometry showing the forward vertical-tail position is shown in figure 24. Surface pressure coefficients were compared for experimental results and computational predictions, as shown in figure 25. Test cases corresponded to the vertical tails in the mid and forward positions. The test condition was M =.9, α =, and NPR = 3. Overall, the computations closely matched the experimental results, and certain flow features were accurately predicted by the computations. An example was the expansion of the flow between the vertical tails (θ = ) as the flow accelerated to supersonic speeds and the location of the recompression shock. Other examples were the stagnation effects near the horizontal-tail leading edge (θ = 9 ) and similar stagnation effects near the leading edge of the vertical tail at θ = and 45 ( x L =.72 and.78 for the forward and mid positions, respectively). The compression at θ = indicated that the influence of the stagnation region of the leading edge of the vertical tail extended inboard on the fuselage, probably reducing the afterbody lift and drag. Certain differences also exist between the computed and experimental results. An examination of the pressure coefficient data at θ = 135, 18, and 225 indicates that the computations did not predict the effects of verticaltail position on the windward side of the aircraft that were seen in the experimental results. Also, the pressure coefficient level immediately downstream of the shock between the vertical tails for the forward vertical-tail position was predicted low (θ = 285, 315, and ). In reference 13, Abdol-Hamid indicated that pressure recovery levels downstream of shocks were sensitive to the applied turbulence model. Conclusions The distributions of static pressure coefficient over the afterbody and nozzles of a generic, twin-tail twinengine fighter aircraft were obtained in the Langley 16-Foot Transonic Tunnel. Three vertical-tail longitudinal positions and two horizontal-tail longitudinal positions were tested for a total of six aft-end configurations. Static pressure coefficients were obtained at Mach numbers (M) of.6,.8,.9, and 1, angles of attack (α) of, 4, and 8, and nozzle pressure ratios ranging from jet-off to 8. Pressure measurements were made at approximately 15 locations on the afterbody, interfairing, and nozzles. Limited computational modeling of the pressure distribution about this model was performed. Based on the discussion of results, the following conclusions are presented: 1. The pressure data support the force and moment data published previously for this model. 2. The influence of the vertical- and horizontal-tail positions is evident over nearly all regions of the afterbody and nozzles, not just in the vicinity of the tailafterbody juncture. 3. The pressure distribution affecting the aft-end drag is influenced more by the position of the vertical tails than by the position of the horizontal tails. A region of accelerated flow and reduced pressure forms at subsonic speeds between the vertical tails. At α =, placing the vertical tails forward on the afterbody reduces the aftfacing projected area of this low-pressure region between the vertical tails and therefore reduces the aft-end drag. At positive angles of attack, placing the vertical tails in an aft position produces lower aft-end drag because the pressure deficit between the vertical tails is reduced by the aft-end pressure recovery. 4. At supersonic free-stream conditions, aft verticalor horizontal-tail positions produce low static pressures on the nozzle surfaces and thus cause higher aft-end drag. 5. The effects of Mach number at and below M =.8 at α = are small, with the exception of the region between the vertical tails where the flow is highly 9

accelerated. The pressure reduction in this region has the effect of increasing afterbody lift for the forward vertical-tail configuration and increasing drag for the aft vertical-tail configuration. Transonic effects strong enough to produce a local shock wave in this region are evident at M =.9. 6. The effects of nozzle pressure ratio in subsonic flow extend over the last 15 percent of the aircraft, but in supersonic flow the effects are limited to the nozzle surface, or to the last 5 percent of the aircraft. 7. Predictions of surface pressure coefficient from computational modeling of this geometry show excellent agreement with experimental results. Exceptions are the recovery pressure level downstream of the upper surface transonic shock at M =.9 and the effects of vertical-tail position on pressure coefficients on the windward side of the aircraft. NASA Langley Research Center Hampton, VA 23681-1 March 1, 1995 References 1. Berrier, Bobby L.: Effect of Nonlifting Empennage Surfaces on Single-Engine Afterbody/Nozzle Drag at Mach Numbers From.5 to 2. NASA TN D-8326, 1977. 2. Burley, James R., II; and Berrier, Bobby L.: Investigation of Installation Effects on Single-Engine Convergent-Divergent Nozzles. NASA TP-278, 1982. 3. Burley, James R., II; and Berrier, Bobby L.: Effects of Tail Span and Empennage Arrangement on Drag of a Typical Single-Engine Fighter Aft End. NASA TP-2352, 1984. 4. Henderson, William P.; and Burley, James R., II: Effect of Empennage Arrangement on Single-Engine Nozzle/Afterbody Static Pressures at Transonic Speeds. NASA TP-2753, 1987. 5. Leavitt, Laurence D.: Effect of Empennage Location on Twin- Engine Afterbody/Nozzle Aerodynamic Characteristics at Mach Numbers From.6 to 1. NASA TP-2116, 1983. 6. Leavitt, Laurence D.; and Bare, E. Ann: Effects of Twin- Vertical-Tail Parameters on Twin-Engine Afterbody/Nozzle Aerodynamic Characteristics. NASA TP-2158, 1983. 7. Capone, F. J.: Nonaxisymmetric Nozzle It Is for Real. AIAA-79-181, 1979. 8. Jones, William T.; Abdol-Hamid, Khaled S.: Computational Analysis of Drag Reduction Techniques for Afterbody/ Nozzle/Empennage Configurations. SAE Paper 912127, Sept. 1991. 9. Staff of the Propulsion Aerodynamics Branch: A User's Guide to the Langley 16-Foot Transonic Tunnel Complex Revision 1. NASA TM-1275, 199. (Supersedes NASA TM-83186.) 1. Price, Earl A., Jr.: An Investigation of F-16 Nozzle-Afterbody Forces at Transonic Mach Numbers With Emphasis on Support System Interference. AEDC-TR-79-56, AFAPL-TR-79-299, U. S. Air Force, Dec. 1979. (Available from DTIC as AD A78 693.) 11. Braslow, Albert L.; Hicks, Raymond M.; and Harris, Roy V., Jr.: Use of Grit-Type Boundary-Layer-Transition Tips on Wind-Tunnel Models. NASA TN D-3579, 1966. 12. Mercer, Charles E.; Berrier, Bobby L.; Capone, Francis J.; and Grayston, Alan M.: Data Reduction Formulas for the 16-Foot Transonic Tunnel: NASA Langley Research Center Revision 2. NASA TM-17646, 1992. (Supersedes NASA TM-86319.) 13. Abdol-Hamid, Khaled S.: Application of a Multiblock/ Multizone Code (PAB3D) for the Three-Dimensional Navier- Stokes Equations. AIAA-91-2155, June 1991. 14. Steinbrenner, John P.; Chawner, John R.; and Fouts, Chris L.: The GRIDGEN 3D Multiple Block Grid Generation System. Volume I: Final Report. WRDC-TR-9-322, VOL I, U. S. Air Force, July 199. (Available from DTIC as AD B148 627L.) Volume II: User's Manual. WRDC-TR-9-322,VOL II, U. S. Air Force, Apr. 23, 1991. (Supersedes WRDC-TR-9-322, vol. II, July 199. Available from DTIC as AD B148 627L.) 1

Table 1. Locations of Pressure Orifices on Afterbody and Nozzles (a) Measurement stations for afterbody pressure orifices Meridian angle, θ, of Interfairing 45 9 135 18 225 24 255 27 285 3 315 Top Bottom.79 x x x x x x x.723 x x x x x x x.738 x x x x x x.752 x x x x x x.767 x x x x x x.781 x x x x x x.796 x x x x.81 x x x.825 x x x x.84 x x x.854 x x.869 x x x.883 x x x x x x x.898 x x x x x x x x x.912 x x x x x x x x.927 x x x x x x x x x.941 x x x x x x x x x x x x (b) Measurement stations for nozzle pressure orifices Meridian angle, θ, of 45 9 135 18 225 24 255 27 285 3 315.951 x x x x x x x x x x x.963 x x x x x x x x x x x.974 x x x x x x x x x x x x.986 x x x x x x x x x x.997 x x x x x x x x TOP VIEW +θ 3 315 +θ 45 285 +θ +θ 45 315 3 BOTTOM VIEW 135 18 255 +θ 9 225 285 24 27 255 18 135 24 LEFT NOZZLE RIGHT NOZZLE 225 9 +θ 11

18 Table 2. Static Pressure Coefficients of Afterbody Surface With Horizontal Tail in Mid Position and Vertical Tail in Forward Position (a) θ = at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854.799 1.56.2 4.35 9.641.1.6.34.111.163 63.331.33 95 27.153.799 1.999.3 4.37 9.639.3.7.32.19.162 62.331.331 94 27.152.798 2.988.2 498 9.652.2.8.32.19.161 6.328.329 94 25.151.8 359.2 4.316 9.625.1.3.19.162 6.331.333 96 27.153.8 3.992.3 4.316 9.627.2.9.31.19.162 62.33.333 97 28.154.799 6.23.3 4.37 9.639.2.1.31.11.162 61.329.33 93 25.152.8 5.969.3 4.312 9.632.2.1.31.11.162 61.327.328 92 24.151.799 7.962.2 4.39 9.638.2.11.3.11.161 58.324.324 89 21.15.799 355 8.1 4.31 9.642.69.61.116 15 75.397.53.576.582.315 3.86 332 4.1 4.351 9.578.32.24.74.166 25.336 3 67.38 67.182.81 345 4.1 4.322 9.622.32.23.75.167 25.335 23 4.362 64.182.898 1.54. 4.916 8.71.31.6 5.18.66.167 58.321.397 78.536.898 1.995.1 4.916 8.79.32.62 6.17.65.165 56.319.396 77.536.899 2.999.2 4.919 8.73.32.62 6.16.64.165 55.318.394 76.543.899 362.3 4.919 8.73.32.62 6.16.64.164 55.318.394 75.544.899 3.986.1 4.923 8.696.29.61 6.17.65.164 55.318.393 75.544.899 5.982.1 4.923 8.697.32.63 7.16.64.163 53.316.392 73.541.899 7.953.2 4.923 8.698.35.66 8.16.64.162 52.315.391 72.525.9 361 8.3 4.926 8.694.34.9.37.111.162 62.359 28.51.58.653.91 327 4. 4.935 8.677.14.12.59.19 6 97.364 35.518.572.61 192. 2.915 11.523.8.15.58.112.134.185 8.193.172.144.116.62 2. 2.921 11.517.8.13.56.111.134.185 9.194.174.147.119.61 2.996.1 2.916 11.523.1.16.6.116.138.189 12.196.177.149.122.61 341.1 2.916 11.522.1.16.59.115.137.189 13.197.177.15.121.61 3.98.1 2.916 11.523.1.15.58.114.136.188 12.196.177.149.121.61 5.968.1 2.914 11.526.12.18.61.117.139.191 13.198.178.15.121.61 7.933.2 2.913 11.524.9.16.58.114.136.189 11.195.173.146.118.6 3.53 8.1 2.96 11.536.81.1.158 26 48.34.322 93 6 18.174.62 348 3.99 2.919 11.52 7.61.113.172.195 47 65 44 17.182.146 11 169.9 6.13 6.66 7.51.52.61.7 4.7.25.71.122.179 12 1.962.9 6.129 6.65 8.5.51.59.69 2.6.25.71.121.179 11 2.928.1 6.129 6.68 8.51.51.59.68 2.6.26.72.122.18 11 3.396.1 6.128 6.67 7.51.52.61.7 3.7.25.71.122.18 11 3.96.11 6.128 6.68 8.51.5.57.68 2.6.25.71.121.179 11 5.879.2 6.128 6.67.5.54 9.59.69 1.27.74.124.182 12 7.827.3 6.13 6.61.51.54 9.58.67.3.27.73.123.181 1.199 3.394 8 6.125 6.84.197 7.124.128.152.169.185 7 4 71.327 12 39 3.98 6.13 6.6.129.136 7.54.55.79.111.132.164 9 69

Table 2. Continued (a) Concluded at values of x L of M NPR α, deg q, psi p, psi.869.883.898.912.927.941.951.963.974.799 1.56.2 4.35 9.641.81.53.51.6.64.57.19.36.127.799 1.999.3 4.37 9.639.81.53.52.6.64.59.113.32.123.798 2.988.2 498 9.652.81.53.52.6.66.62.117.29.119.8 359.2 4.316 9.625.82.53.52.6.66.62.118.3.12.8 3.992.3 4.316 9.627.83.54.53.59.65.62.117.3.122.799 6.23.3 4.37 9.639.82.52.51.54.59.54.17 2.136.8 5.969.3 4.312 9.632.82.51.5.53.59.55.16 3.137.799 7.962.2 4.39 9.638.81 9 7 6.5 3.91.59.153.799 355 8.1 4.31 9.642.128.88.81.71.73.66.15.36.12.86 332 4.1 4.351 9.578.11.72.68.61.67.64.19.34.118.81 345 4.1 4.322 9.622.11.72.69.61.67.63.11.33.117.898 1.54. 4.916 8.71.13.24.17.28.3.22.66.71.148.898 1.995.1 4.916 8.79.11.24.18.29.33.26.71.67.144.899 2.999.2 4.919 8.73.19.28.22.33.38.32.79.61.139.899 362.3 4.919 8.73.11.28.22.33.38.32.8.61.139.899 3.986.1 4.923 8.696.111.27.21.31.36.3.79.62.141.899 5.982.1 4.923 8.697.18.25.18.26.3.23.67.73.153.899 7.953.2 4.923 8.698.98.2.12.18.2.1 9.9.168.9 361 8.3 4.926 8.694 17.85.5.36.3.19.35.71.14.91 327 4. 4.935 8.677.139 4.31.28.3.22.55.68.135.61 192. 2.915 11.523.7 8 7.5.56.54.99.27.11.62 2. 2.921 11.517.75.51.51.54.62.62.111.16.96.61 2.996.1 2.916 11.523.77.54.54.57.65.66.117.1.89.61 341.1 2.916 11.522.78.54.54.56.64.67.118.1.9.61 3.98.1 2.916 11.523.78.54.54.57.65.66.117.1.9.61 5.968.1 2.914 11.526.78.53.52.54.61.61.19.2.14.61 7.933.2 2.913 11.524.73 9 7.5.55.52.96.34.12.6 3.53 8.1 2.96 11.536.12.91.82.82.81.74.112.12.87.62 348 3.99 2.919 11.52.96.71.65.67.7.67.16.13.89 11 169.9 6.13 6.66 43 76.198 4 51 85 55.325.147 12 1.962.9 6.129 6.65 43 76.198 3 52 86 57.326 17 11 2.928.1 6.129 6.68 44 76.198 3 52 86 59.327 54 11 3.396.1 6.128 6.67 44 77.198 3 52 85 56.326 48 11 3.96.11 6.128 6.68 44 76.197 1 51 86 58.326 23 11 5.879.2 6.128 6.67 46 8 9 58 9 61.333 1 12 7.827.3 6.13 6.61 45 8 1 1 58 92 64.331.93 1.199 3.394 8 6.125 6.84.379 2.34.321.378 16 3.386.188 12 39 3.98 6.13 6.6.318.355 71 49 83.324.347.379.148 19

2 Table 2. Continued (b) θ = 45 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.883.912.941.951.963.974.997.799 1.56.2 4.35 9.641 3.12.6.39.38 3.3.59.2.2.53.119.177.799 1.999.3 4.37 9.639.5.11..34.34.28.59.3.22.5.116.164.798 2.988.2 498 9.652 9.18.1.32.31.38.28.58.24 9.115.163.8 359.2 4.316 9.625 6.16.1.33.33.39.28.58.5.24.5.116.163.8 3.992.3 4.316 9.627 5.16.1.34.35 1.27.59.5.23.51.117.167.799 6.23.3 4.37 9.639 6.16.1.33.34.25.54..14.63.133.185.8 5.969.3 4.312 9.632 6.16..32.33.39.23.53.1.13.64.133.185.799 7.962.2 4.39 9.638 6.16..31.32.38.18 7.9.2.78.149.196.799 355 8.1 4.31 9.642.13.54.3.64.71.87.61.77.17.11.58.119.156.86 332 4.1 4.351 9.578.3.99.1.26.34 6.39.64.1.2.55.12.128.81 345 4.1 4.322 9.622.31.99.11.24.31 4.39.64.1.2.56.121.129.898 1.54. 4.916 8.71.66.132.1.29.24.28.2 2.24.6.78.142.161.898 1.995.1 4.916 8.79.69.135.11.28.24.28.21 3.21.3.76.139.153.899 2.999.2 4.919 8.73.66.131.8.31.27.31.23 6.19.1.73.136.153.899 362.3 4.919 8.73.65.13.7.32.28.31.23 5.18.1.73.137.155.899 3.986.1 4.923 8.696.65.131.1.28.24.28.21 5.19.1.76.14.159.899 5.982.1 4.923 8.697.66.132.9.3.26.29.19 1.25.1.86.152.172.899 7.953.2 4.923 8.698.64.13.1.28.25.28.12.33.33.23.11.169.182.9 361 8.3 4.926 8.694.9.56.55.11.115.117.72.51.19.22.87.144.156.91 327 4. 4.935 8.677.52.12.9 2 8.54.3 4.21.11.82.141.136.61 192. 2.915 11.523 3.9.2.27.31.36.14 5..18 9.19.162.62 2. 2.921 11.517.38.87.5.31.34.38.18 9.7.26.39.97.131.61 2.996.1 2.916 11.523.38.86.6.32.34.39.21.51.1.3.35.92.122.61 341.1 2.916 11.522.39.88.31.33.38.2.51.9.31.34.92.125.61 3.98.1 2.916 11.523.37.85.8.33.36.21.52.9.3.35.92.132.61 5.968.1 2.914 11.526.39.86.7.33.34.38.21.5.25 2.13.158.61 7.933.2 2.913 11.524.88.5.32.34.37.18 5.3.17.52.116.177.6 3.53 8.1 2.96 11.536.2.59.6.36 5.62.67.79.21.31.29.85.129.62 348 3.99 2.919 11.52.32.9.13.17.24.36.39.62.11.32.31.88.125 11 169.9 6.13 6.66 7.17.95.2 7.18.17.151 26 75.386.166 3 12 1.962.9 6.129 6.65 8.17.94.2 7.18.11.151 26 75.386 11.28 11 2.928.1 6.129 6.68 8.18.95.2 8.18.17.151 27 75.386 26.18 11 3.396.1 6.128 6.67 8.17.96.3 7.18.14.15 26 75.386 29.17 11 3.96.11 6.128 6.68 9.17.93.2 8.18.16.151 26 75.386 3.19 11 5.879.2 6.128 6.67.51.14.9.6.53.114.112.156 31 81.396 11.34 12 7.827.3 6.13 6.61.51.13.88.6.53.113.118.157 31 81.396.122.55 1.199 3.394 8 6.125 6.84.17.2.28.24.34 47.347.372.388 4.185 4 12 39 3.98 6.13 6.6.111.52.69.9 2.89 14.196 64.31 14 22.12

Table 2. Continued (c) θ = 9 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.951.963.974.986.997.799 1.56.2 4.35 9.641.16.23.3 1.15.164.32.79.129.169 5.799 1.999.3 4.37 9.639.2.27.7.37.18.168.3.77.126.164.196.798 2.988.2 498 9.652.2.28.7.38.18.168.3.75.122.159.189.8 359.2 4.316 9.625.2.28.6.39.17.168.3.75.123.16.189.8 3.992.3 4.316 9.627.19.28.5.16.166.32.76.124.161.194.799 6.23.3 4.37 9.639.19.28.5 1.16.167 1.87.137.18 21.8 5.969.3 4.312 9.632.19.29.5 2.16.168 2.87.137.179 2.799 7.962.2 4.39 9.638.19.29.3 2.16.168.54.1.152.198 45.799 355 8.1 4.31 9.642.1.8.27.97.16 28.8.124.159.192.86 332 4.1 4.351 9.578.24.3..52.14.199.37.75.119.154.183.81 345 4.1 4.322 9.622.26.31.1.51.15 1.38.75.119.155.183.898 1.54. 4.916 8.71.26 3.24.25.29.173.52.99.148.184 16.898 1.995.1 4.916 8.79.28 6.26.23.3.174.51.96.144.18 8.899 2.999.2 4.919 8.73.25 3.23.26.28.172 8.93.141.176 1.899 362.3 4.919 8.73.25 3.22.27.27.171 9.94.142.177 2.899 3.986.1 4.923 8.696.26 4.23.26.29.172.51.96.144.18 8.899 5.982.1 4.923 8.697.26 5.23.26.29.172.6.16.156.196 34.899 7.953.2 4.923 8.698.27 6.24.26.29.172.72.119.171 16 59.9 361 8.3 4.926 8.694.18.15.57.158.59 4.66.18.151.182 9.91 327 4. 4.935 8.677.14.29.2.68.3.199.6.98.14.172.196.61 192. 2.915 11.523.18.19.3.32.19.158.31.73.119.156.19.62 2. 2.921 11.517.15.17..35.16.156.22.64.17.142.169.61 2.996.1 2.916 11.523.14.15.1.34.15.156.18.59.11.135.158.61 341.1 2.916 11.522.15.16.1.34.16.157.17.58.1.135.158.61 3.98.1 2.916 11.523.14.14.2.35.14.154.18.59.11.136.161.61 5.968.1 2.914 11.526.14.14..33.16.156.23.66.113.152.189.61 7.933.2 2.913 11.524.15.15.1.31.18.156.31.77.126.171 14.6 3.53 8.1 2.96 11.536.32.19.3 3.17 25.16.58.11.134.155.62 348 3.99 2.919 11.52.32.25.13.2.29.179.14.57.1.134.154 11 169.9 6.13 6.66.66.3.55.3.63.123 2 64.19.36.32 12 1.962.9 6.129 6.65.66.55.31.64.124 19 65 21.78.14 11 2.928.1 6.129 6.68.65.2.55.32.65.123 18 64 29.18.1 11 3.396.1 6.128 6.67.66.2.55.31.64.124 18 65 31.112.1 11 3.96.11 6.128 6.68.65.2.54.32.65.123 18 65 31.19.3 11 5.879.2 6.128 6.67.73.11.51.34.68.119 29 74 13.53.14 12 7.827.3 6.13 6.61.74.11.5.34.68.118 29 71.126.12.37 1.199 3.394 8 6.125 6.84.99.63.15.38 84 62.3 2.128.75 12 39 3.98 6.13 6.6.35.14.3 7.83.173 15 68 31.122.9 21

22 Table 2. Continued (d) θ = 135 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.869.799 1.56.2 4.35 9.641.27.33 8.28.16.2.38 2.56.79.799 1.999.3 4.37 9.639.26.32 7.39.26.15.18.36.55.78.798 2.988.2 498 9.652.25.31 7.37.26.15.18.35.39.54.77.8 359.2 4.316 9.625.25.31 7.37.25.16.18.37.55.79.8 3.992.3 4.316 9.627.26.32 7.36.26.17.18.36.39.54.79.799 6.23.3 4.37 9.639.27.33 8.35.27.18.19.36.39.53.78.8 5.969.3 4.312 9.632.27.32 7.35.26.18.18.37.39.53.78.799 7.962.2 4.39 9.638.27.33 8.34.26.19.18.36.38.52.77.799 355 8.1 4.31 9.642.13.31.56 4.38.21.1.6.3.33.86 332 4.1 4.351 9.578.11.22 1.24.2.1.1.15.15.29.63.81 345 4.1 4.322 9.622.1.21.23.2.1..13.12.27.61.898 1.54. 4.916 8.71.31.26.38.32.17.5.11.33 1.6.88.898 1.995.1 4.916 8.79.28.24.36.29.14.2.8.29.38.57.88.899 2.999.2 4.919 8.73.31.26.38.31.15.1.33 1.6.91.899 362.3 4.919 8.73.3.25.37.3.15.1.32.6.9.899 3.986.1 4.923 8.696.33.26.37.28.14.3.8.3.38.58.89.899 5.982.1 4.923 8.697.3.24.36.27.14.9.31.39.58.89.899 7.953.2 4.923 8.698.29.24.35.25.12.3.7.29.37.56.86.9 361 8.3 4.926 8.694.52.69.1.99.83.56.36.37.25.32.5.91 327 4. 4.935 8.677.37.58 4.33.19.13.29.31 6.77.61 192. 2.915 11.523.18.3 4.34.23.17.16.3.3 1.57.62 2. 2.921 11.517.2.32 6.35.26.19.18.33.32 2.61.61 2.996.1 2.916 11.523.2.33 7.35.27.22.2.34.33 3.63.61 341.1 2.916 11.522.2.32 6.35.28.21.2.35.33 3.64.61 3.98.1 2.916 11.523.2.33 7.36.28.22.2.34.33 3.64.61 5.968.1 2.914 11.526.2.32 6.36.28.21.2.35.32 2.62.61 7.933.2 2.913 11.524.19.32 5.36.26.19.18.33.32 1.61.6 3.53 8.1 2.96 11.536.15.5.25.23.1.7.19.16.26.19.8.62 348 3.99 2.919 11.52.8.9.26.21.9.3.7.5.1.13.38 11 169.9 6.13 6.66.63.74.71.56.6.77.54.71.87.111.146 12 1.962.9 6.129 6.65.62.74.72.56.6.77.54.72.87.111.146 11 2.928.1 6.129 6.68.62.73.71.56.61.78.54.71.86.111.146 11 3.396.1 6.128 6.67.62.74.72.55.6.77.54.71.86.11.146 11 3.96.11 6.128 6.68.61.73.71.55.6.77.54.71.86.111.146 11 5.879.2 6.128 6.67.7.82.78.64.66.81.6.79.95.12.154 12 7.827.3 6.13 6.61.71.83.8.66.66.81.61.8.95.12.155 1.199 3.394 8 6.125 6.84.145.11.56.3.25.28.54.53 6.15 6 12 39 3.98 6.13 6.6.54.38.3.27.37.51.13.2.28.51.16

Table 2. Continued (d) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997.799 1.56.2 4.35 9.641.85.9.75.53.7.31 8.115.161.185.799 1.999.3 4.37 9.639.83.89.74.52.7.33 3.19.155.173.798 2.988.2 498 9.652.84.88.74.52.8.34 1.18.153.169.8 359.2 4.316 9.625.85.91.75.54.9.34 1.18.154.17.8 3.992.3 4.316 9.627.86.91.76.55.1.34 1.18.156.173.799 6.23.3 4.37 9.639.84.87.73 9.5.25 9.119.173.194.8 5.969.3 4.312 9.632.84.87.72 8.3.24 9.12.173.195.799 7.962.2 4.39 9.638.81.83.68 3.13.6.135.193 14.799 355 8.1 4.31 9.642 3.51 7.32.1.26.39.19.163.169.86 332 4.1 4.351 9.578.73.77.7 9.12.27.31.99.151.151.81 345 4.1 4.322 9.622.71.75.68 7.12.26.31.99.151.152.898 1.54. 4.916 8.71.12.111.86.51.5.12.68.133.177.187.898 1.995.1 4.916 8.79.13.112.88.53.16.63.128.17.177.899 2.999.2 4.919 8.73.15.114.9.55.1.18.6.126.168.173.899 362.3 4.919 8.73.14.115.9.54.1.18.61.126.169.174.899 3.986.1 4.923 8.696.14.114.9.54.2.17.61.127.172.179.899 5.982.1 4.923 8.697.12.111.86 9.7.8.7.138.187.199.899 7.953.2 4.923 8.698.98.15.8 2.16.3.82.152 5 18.9 361 8.3 4.926 8.694.62.7.58.34.11.1.63.133.183.18.91 327 4. 4.935 8.677.92.11.85.52.3.11.52.118.165.161.61 192. 2.915 11.523.58.59 9.37.1.28 1.13.15.171.62 2. 2.921 11.517.61.63.54 2.8.37.29.9.134.145.61 2.996.1 2.916 11.523.64.66.57 4.11 3.23.83.127.135.61 341.1 2.916 11.522.64.67.57 5.11 2.23.83.127.137.61 3.98.1 2.916 11.523.65.65.57 4.12 3.23.84.128.142.61 5.968.1 2.914 11.526.63.63.54 2.7.36.32.96.144.168.61 7.933.2 2.913 11.524.6.61.51.37.1.28 4.11.162.191.6 3.53 8.1 2.96 11.536.13.23.22.18.9.29.38.93.132.141.62 348 3.99 2.919 11.52 1 8 2.35.6.32.31.86.124.138 11 169.9 6.13 6.66.14.123.154.192 58.339.146.19.26 12 1.962.9 6.129 6.65.141.123.153.192 58.34 27.52.16 11 2.928.1 6.129 6.68.14.123.154.192 6.342 51.91 11 3.396.1 6.128 6.67.14.122.153.192 59.341 5.95 11 3.96.11 6.128 6.68.139.122.154.192 59.342 47.91.3 11 5.879.2 6.128 6.67.146.129.16.199 6 68.348 24.55.17 12 7.827.3 6.13 6.61.148.13.16.199 7 66.344.11.16.35 1.199 3.394 8 6.125 6.84.57.97.145.164.158 15.324 67.183.72 12 39 3.98 6.13 6.6.13.98.124.156.155 26.36 45.145.8 23

24 Table 2. Continued (e) θ = 18 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854.799 1.56.2 4.35 9.641.36.5.51 6 3.51.61.63.66.71.74.799 1.999.3 4.37 9.639.34 7 9 3 1 9.59.61.64.69.72.798 2.988.2 498 9.652.33 7 8 3.39 8.59.59.63.68.71.8 359.2 4.316 9.625.34 7 9 4 1 9.61.6.64.69.73.8 3.992.3 4.316 9.627.34 6 9 4.5.62.61.65.7.74.799 6.23.3 4.37 9.639.36 5 9 4.39 9.61.6.62.68.73.8 5.969.3 4.312 9.632.36 6 9 5 9.62.6.62.68.72.799 7.962.2 4.39 9.638.36 4 8 4.38 8.62.58.61.66.71.799 355 8.1 4.31 9.642.6.1.23.25.2.3 3.33.31.35.86 332 4.1 4.351 9.578.1.21.31.3.23.35.51 4 5.53.61.81 345 4.1 4.322 9.622.9.18.29.28.22.33.5 2 4.51.59.898 1.54. 4.916 8.71 4.51 7.39.35 3.55.59.65.73.8.898 1.995.1 4.916 8.79 7 4.36.31.52.57.63.72.8.899 2.999.2 4.919 8.73 4.5 6.38.33 3.55.6.66.74.82.899 362.3 4.919 8.73 2 9 5.38.33 3.56.6.66.74.82.899 3.986.1 4.923 8.696 5 8 4.37.31.54.58.64.73.82.899 5.982.1 4.923 8.697 3 7 4.37.31 1.55.58.64.73.81.899 7.953.2 4.923 8.698 4 5 3.35.29.39.53.56.61.7.78.9 361 8.3 4.926 8.694.25.52.68.69.65.74.82.7.62.62.63.91 327 4. 4.935 8.677.36 7.52 7.39 9.64.59.6.68.76.61 192. 2.915 11.523.27.39 2.37.31.52.5.5.53.55.62 2. 2.921 11.517.3 1 4.33 2.55.52.53.57.58.61 2.996.1 2.916 11.523.3.39 5.34 3.56.53.54.58.61.61 341.1 2.916 11.522.31 4.33 4.57.53.53.58.6.61 3.98.1 2.916 11.523.31 5 1.35 3.57.54.54.58.61.61 5.968.1 2.914 11.526.3.39 4.33 3.55.53.52.57.59.61 7.933.2 2.913 11.524.29 1 4.34 3.54.52.52.56.57.6 3.53 8.1 2.96 11.536.29.11.1.5.7.2.13.9.8.13.13.62 348 3.99 2.919 11.52.5.11.17.13.11.19.31.3.3.35.36 11 169.9 6.13 6.66.19.52.78.79.76.76.94.113.125.133.148 12 1.962.9 6.129 6.65.19.52.78.81.77.76.94.113.125.133.149 11 2.928.1 6.129 6.68.19.51.78.81.77.76.94.112.124.133.149 11 3.396.1 6.128 6.67.18.51.78.81.76.75.94.112.123.133.149 11 3.96.11 6.128 6.68.18.51.77.79.75.75.94.112.124.133.15 11 5.879.2 6.128 6.67.26.61.86.88.84.84.99.121.133.14.155 12 7.827.3 6.13 6.61.26.6.86.89.85.84.1.121.132.139.154 1.199 3.394 8 6.125 6.84.187.14.13.8.55.25.21 2 2 3 9 12 39 3.98 6.13 6.6.77.51.3.22.11.9 6.74.91.15.122

Table 2. Continued (e) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.974.986.799 1.56.2 4.35 9.641.77.74.77.71.77.12.12.168.799 1.999.3 4.37 9.639.75.73.77.72.78.17.114.161.798 2.988.2 498 9.652.74.72.77.72.8.18.112.158.8 359.2 4.316 9.625.76.73.79.74.8.18.112.159.8 3.992.3 4.316 9.627.74.73.79.74.79.18.114.161.799 6.23.3 4.37 9.639.69.69.74.69.7.96.126.175.8 5.969.3 4.312 9.632.69.68.74.68.69.95.127.175.799 7.962.2 4.39 9.638.64.64.68.61.59.8.142.192.799 355 8.1 4.31 9.642.33 1.57.64.76.125.118.162.86 332 4.1 4.351 9.578.53.6.72.75.8.12.11.15.81 345 4.1 4.322 9.622.51.59.71.74.79.119.111.151.898 1.54. 4.916 8.71.88.85.83.68.63.88.138.18.898 1.995.1 4.916 8.79.89.86.85.7.66.92.133.173.899 2.999.2 4.919 8.73.9.88.88.72.69.96.131.171.899 362.3 4.919 8.73.9.88.88.73.69.96.131.172.899 3.986.1 4.923 8.696.88.87.87.72.68.94.133.174.899 5.982.1 4.923 8.697.86.84.83.68.61.84.143.186.899 7.953.2 4.923 8.698.8.77.76.6.5.7.157 1.9 361 8.3 4.926 8.694.53.56.66.64.7.121.144.184.91 327 4. 4.935 8.677.73.78.85.78.77.115.129.163.61 192. 2.915 11.523.52.51.58.56.65.9.17.153.62 2. 2.921 11.517.56.56.64.64.73.11.94.137.61 2.996.1 2.916 11.523.57.59.67.67.77.18.88.13.61 341.1 2.916 11.522.57.59.66.67.76.17.88.13.61 3.98.1 2.916 11.523.58.6.67.68.77.18.88.131.61 5.968.1 2.914 11.526.57.57.64.63.71.99.1.147.61 7.933.2 2.913 11.524.55.55.59.57.65.88.115.166.6 3.53 8.1 2.96 11.536.22.26.39 6.71.113.96.139.62 348 3.99 2.919 11.52 4 5.55.57.77.113.9.13 11 169.9 6.13 6.66.167.166.178.192 14 4.127.22 12 1.962.9 6.129 6.65.167.166.179.192 13 4 23.39 11 2.928.1 6.129 6.68.167.166.179.192 13 4 64.63 11 3.396.1 6.128 6.67.166.166.179.193 13 39 55.65 11 3.96.11 6.128 6.68.166.166.178.192 13 4 25.63 11 5.879.2 6.128 6.67.178.174.186.199 23 52 22 3 12 7.827.3 6.13 6.61.177.174.186 24 51.88.17 1.199 3.394 8 6.125 6.84 9.6.11.146 3 6.324.18 12 39 3.98 6.13 6.6.134.133.144.153.179 2 78.94 25

26 Table 2. Continued (f) θ = 225 at values of x L of M NPR α, deg q, psi p, psi.833.898.912.927.941.951.963.974.986.997.799 1.56.2 4.35 9.641.85.65 6 8.111.148.73.143.18 1.799 1.999.3 4.37 9.639.84.64 6.51.117.16.66.139.177.195.798 2.988.2 498 9.652.83.64 7.53.122.166.63.139.177.192.8 359.2 4.316 9.625.83.64 8.53.121.165.64.138.176.192.8 3.992.3 4.316 9.627.82.64 7.52.121.163.66.139.177.193.799 6.23.3 4.37 9.639.77.58 2.16.141.79.148.184 5.8 5.969.3 4.312 9.632.76.58 1.16.14.81.149.185 5.799 7.962.2 4.39 9.638.7.51.3.28.87.115.98.157.19 15.799 355 8.1 4.31 9.642 9.37.26.39.139 17.54.139.18.187.86 332 4.1 4.351 9.578.65.53.38 6.133.193.59.132.165.168.81 345 4.1 4.322 9.622.62.51.36 4.132.194.59.133.165.168.898 1.54. 4.916 8.71.92.69 2.34.86.18.99.14.166.191.898 1.995.1 4.916 8.79.93.7 4.37.91.115.96.139.166.188.899 2.999.2 4.919 8.73.94.72 8 1.98.125.91.138.165.185.899 362.3 4.919 8.73.94.72 8 1.98.125.91.138.166.186.899 3.986.1 4.923 8.696.93.72 7 1.98.124.93.141.169.189.899 5.982.1 4.923 8.697.89.68 3.34.88.111.11.145.172.198.899 7.953.2 4.923 8.698.82.6.34.24.75.93.11.152.18 1.9 361 8.3 4.926 8.694.66 9.29.34.123.194.87.156.189 1.91 327 4. 4.935 8.677.83.66 4 5.125.183.77.136.162.168.61 192. 2.915 11.523.63 8.32 1.18.146.57.139.183.196.62 2. 2.921 11.517.68.53.39.5.12.162 2.127.169.174.61 2.996.1 2.916 11.523.7.56 1.52.125.168.36.121.165.167.61 341.1 2.916 11.522.7.55 1.52.123.167.36.122.166.169.61 3.98.1 2.916 11.523.72.57 2.53.125.167.37.123.167.172.61 5.968.1 2.914 11.526.7.54.37 7.113.152 9.134.181.194.61 7.933.2 2.913 11.524.66 9.31.39.1.134.65.146.193 13.6 3.53 8.1 2.96 11.536 6.31.19 3.133.198.26.122.175.177.62 348 3.99 2.919 11.52.63 7.32.5.129.185.28.116.162.167 11 169.9 6.13 6.66.195.195.171.132.191.39 16.87 4.1 12 1.962.9 6.129 6.65.195.195.171.133.191.39.325.111.55.11 11 2.928.1 6.129 6.68.195.195.171.132.19.39.381.131.65.21 11 3.396.1 6.128 6.67.194.195.17.131.19.31 4.139.62.14 11 3.96.11 6.128 6.68.194.195.171.131.19.39 32.148.51.1 11 5.879.2 6.128 6.67 6 5.18.141.196.315.383.123.57.6 12 7.827.3 6.13 6.61 5 5.181.144.199.316.313.82.14.32 1.199 3.394 8 6.125 6.84.65.63.51.57.17 99 46.373.178.9 12 39 3.98 6.13 6.6.155.151.124.99.171 89 19.155.67.16

Table 2. Continued (g) θ = 24 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.799 1.56.2 4.35 9.641.67.34.31.7.172.95.137.172.799 1.999.3 4.37 9.639.67.35.34.77.188.88.135.173.798 2.988.2 498 9.652.68.36.37.83.198.86.136.175.8 359.2 4.316 9.625.7.37.37.82.192.85.133.173.8 3.992.3 4.316 9.627.71.35.35.81.189.86.133.174.799 6.23.3 4.37 9.639.66.28.24.64.161.96.137.176.8 5.969.3 4.312 9.632.66.27.24.63.158.96.137.177.799 7.962.2 4.39 9.638.6.16.8.12.18.139.178.799 355 8.1 4.31 9.642.55.15.25.95 51.73.13.177.86 332 4.1 4.351 9.578.69.25.29.85 14.73.114.157.81 345 4.1 4.322 9.622.67.24.28.85 15.73.115.158.898 1.54. 4.916 8.71.69.28.13.35.99.12.12.151.898 1.995.1 4.916 8.79.71.3.16 1.18.11.12.153.899 2.999.2 4.919 8.73.75.33.21 9.119.97.12.154.899 362.3 4.919 8.73.75.33.21 9.119.97.12.154.899 3.986.1 4.923 8.696.76.33.2 8.118.97.122.157.899 5.982.1 4.923 8.697.72.27.13.37.11.12.124.157.899 7.953.2 4.923 8.698.65.18.2.23.81.19.127.16.9 361 8.3 4.926 8.694.6.17.16.69.194.96.135.177.91 327 4. 4.935 8.677.79.31.26.72.181.8.16.14.61 192. 2.915 11.523.51.23.25.71.191.81.149.183.62 2. 2.921 11.517.58.3.34.84 11.68.138.174.61 2.996.1 2.916 11.523.61.33.38.89 21.63.134.17.61 341.1 2.916 11.522.6.32.37.88 19.63.133.17.61 3.98.1 2.916 11.523.61.34.39.89 19.64.135.171.61 5.968.1 2.914 11.526.56.3.32.77.198.76.144.179.61 7.933.2 2.913 11.524 9.23.22.62.175.91.153.188.6 3.53 8.1 2.96 11.536.34.17.3.99 75.59.143.182.62 348 3.99 2.919 11.52 7.28.35.93 51.6.131.166 11 169.9 6.13 6.66 2.148.113.154 12.171.93 2 12 1.962.9 6.129 6.65 2.148.114.155 12 36.122.59 11 2.928.1 6.129 6.68 3.147.113.154 11 96.14.73 11 3.396.1 6.128 6.67 3.147.112.153 12.355.149.74 11 3.96.11 6.128 6.68 3.147.112.153 12 47.157.7 11 5.879.2 6.128 6.67 9.158.122.161 21 54.132.62 12 7.827.3 6.13 6.61 1.159.124.164 21 4.95.23 1.199 3.394 8 6.125 6.84.74.37.34.115 5.555 7 3 12 39 3.98 6.13 6.6.161.14.75.126.398.344.168.14 27

28 Table 2. Continued (h) θ = 255 at values of x L of M NPR α, deg q, psi p, psi.941.963.974.986.997.799 1.56.2 4.35 9.641 2.9.125.168 5.799 1.999.3 4.37 9.639.51.87.123.168 4.798 2.988.2 498 9.652.58.88.126.171 3.8 359.2 4.316 9.625.57.86.125.17 3.8 3.992.3 4.316 9.627.55.86.123.169 3.799 6.23.3 4.37 9.639.35.92.124.172 9.8 5.969.3 4.312 9.632.35.94.126.174 1.799 7.962.2 4.39 9.638.8.12.128.174 14.799 355 8.1 4.31 9.642.71.74.111.169 6.86 332 4.1 4.351 9.578.55.72.99.15.184.81 345 4.1 4.322 9.622.54.73.11.152.186.898 1.54. 4.916 8.71.3.93.113.145.182.898 1.995.1 4.916 8.79.91.114.147.184.899 2.999.2 4.919 8.73.13.89.112.15.185.899 362.3 4.919 8.73.13.89.112.149.185.899 3.986.1 4.923 8.696.13.89.114.151.189.899 5.982.1 4.923 8.697.1.93.114.152.191.899 7.953.2 4.923 8.698.15.98.117.152.193.9 361 8.3 4.926 8.694.34.81.115.168 7.91 327 4. 4.935 8.677.35.61.82.126.163.61 192. 2.915 11.523.52.94.141.181 4.62 2. 2.921 11.517.67.82.131.171.188.61 2.996.1 2.916 11.523.72.76.126.166.181.61 341.1 2.916 11.522.71.76.127.166.182.61 3.98.1 2.916 11.523.71.76.127.166.183.61 5.968.1 2.914 11.526.59.84.134.174.197.61 7.933.2 2.913 11.524 3.99.142.182 11.6 3.53 8.1 2.96 11.536.86.78.139.177.189.62 348 3.99 2.919 11.52.75.74.128.162.177 11 169.9 6.13 6.66.159 19.79.38 12 1.962.9 6.129 6.65.16 45.113.33.14 11 2.928.1 6.129 6.68.16 62.138.53.3 11 3.396.1 6.128 6.67.16 45.145.66.13 11 3.96.11 6.128 6.68.16 7.151.88.29 11 5.879.2 6.128 6.67.166 53.126 7.11 12 7.827.3 6.13 6.61.169.188.9.23.31 1.199 3.394 8 6.125 6.84.12 6 1.177.137 12 39 3.98 6.13 6.6.135 48.155.78.17

Table 2. Continued (i) θ = 27 at values of x L of M NPR α, deg q, psi p, psi.951.963.974.986.799 1.56.2 4.35 9.641.32.88.125.168.799 1.999.3 4.37 9.639.2.85.123.169.798 2.988.2 498 9.652.9.86.127.171.8 359.2 4.316 9.625.12.85.125.17.8 3.992.3 4.316 9.627.16.85.123.17.799 6.23.3 4.37 9.639 1.92.124.171.8 5.969.3 4.312 9.632.94.126.172.799 7.962.2 4.39 9.638.7.13.128.171.799 355 8.1 4.31 9.642.2.73.111.167.86 332 4.1 4.351 9.578.34.75.97.147.81 345 4.1 4.322 9.622.32.77.98.149.898 1.54. 4.916 8.71.77.93.112.143.898 1.995.1 4.916 8.79.73.91.113.145.899 2.999.2 4.919 8.73.65.88.112.147.899 362.3 4.919 8.73.71.88.112.147.899 3.986.1 4.923 8.696.65.88.113.149.899 5.982.1 4.923 8.697.77.94.113.149.899 7.953.2 4.923 8.698.88.1.116.149.9 361 8.3 4.926 8.694.57.84.114.166.91 327 4. 4.935 8.677.54.64.79.12.61 192. 2.915 11.523.5.95.143.184.62 2. 2.921 11.517.21.82.134.175.61 2.996.1 2.916 11.523.22.78.128.171.61 341.1 2.916 11.522.2.77.129.171.61 3.98.1 2.916 11.523.19.78.128.171.61 5.968.1 2.914 11.526.17.87.135.177.61 7.933.2 2.913 11.524.7.1.143.185.6 3.53 8.1 2.96 11.536 3.79.14.183.62 348 3.99 2.919 11.52.33.73.127.166 11 169.9 6.13 6.66.335.148.74.6 12 1.962.9 6.129 6.65.346.177.17.33 11 2.928.1 6.129 6.68.35.199.127 9 11 3.396.1 6.128 6.67.349.198.139.61 11 3.96.11 6.128 6.68.349.191.158.81 11 5.879.2 6.128 6.67.357.187.12 9 12 7.827.3 6.13 6.61.322.138.95.3 1.199 3.394 8 6.125 6.84.362 16 22.178 12 39 3.98 6.13 6.6.349.173.134.81 29

3 Table 2. Continued (j) θ = 285 at values of x L of M NPR α, deg q, psi p, psi.927.941.951.963.974.986.997.799 1.56.2 4.35 9.641.16.34.15.88.124.166 8.799 1.999.3 4.37 9.639.22 5.32.84.123.166 7.798 2.988.2 498 9.652.27.55.39.83.123.168 9.8 359.2 4.316 9.625.26.52.35.81.12.165 8.8 3.992.3 4.316 9.627.25.5.31.82.119.164 9.799 6.23.3 4.37 9.639.12.29.8.93.123.163 13.8 5.969.3 4.312 9.632.13.3.7.93.123.164 14.799 7.962.2 4.39 9.638.7.3.31.14.125.162 18.799 355 8.1 4.31 9.642.29 4.27.72.11.158 18.86 332 4.1 4.351 9.578.16.19.12.67.93.135.195.81 345 4.1 4.322 9.622.18.21.12.67.93.135.197.898 1.54. 4.916 8.71 3.54.65.94.111.143.187.898 1.995.1 4.916 8.79.37 4.55.9.112.146.189.899 2.999.2 4.919 8.73.26.29 4.86.111.146.191.899 362.3 4.919 8.73.26.3 5.86.11.146.191.899 3.986.1 4.923 8.696.27.3 5.87.111.148.194.899 5.982.1 4.923 8.697.38 6.6.94.112.146.195.899 7.953.2 4.923 8.698.56.68.8.12.114.146.197.9 361 8.3 4.926 8.694.7.3 7.84.111.157 17.91 327 4. 4.935 8.677.15.31.51.66.76.112.175.61 192. 2.915 11.523.27.59.63.92.138.179 12.62 2. 2.921 11.517.36.73.83.8.13.169.196.61 2.996.1 2.916 11.523 1.79.91.76.125.165.191.61 341.1 2.916 11.522 1.78.91.76.125.164.191.61 3.98.1 2.916 11.523 1.78.9.77.125.165.193.61 5.968.1 2.914 11.526.34.66.71.87.133.175 7.61 7.933.2 2.913 11.524.21 5 5.98.141.183 2.6 3.53 8.1 2.96 11.536.54.92.18.77.136.18 1.62 348 3.99 2.919 11.52 3.68.68.72.117.162.189 11 169.9 6.13 6.66.134.152 17.15.117.55.13 12 1.962.9 6.129 6.65.135.153 24.192.134.66.2 11 2.928.1 6.129 6.68.134.153 25 21.15.75 11 3.396.1 6.128 6.67.133.152 26 41.147.67.3 11 3.96.11 6.128 6.68.133.152 26 76.133 6.19 11 5.879.2 6.128 6.67.136.155 32 1.144.76. 12 7.827.3 6.13 6.61.139.156 27.154.82.26.33 1.199 3.394 8 6.125 6.84 68 39 61.342 2.133.72 12 39 3.98 6.13 6.6 41 27 35.183.123.75.2

Table 2. Continued (k) θ = 3 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.997.799 1.56.2 4.35 9.641.63.28.26.54.98.132.169 4.175.799 1.999.3 4.37 9.639.64.31.3.62.95.132.171 3.162.798 2.988.2 498 9.652.66.34.35.7.93.136.173.162.8 359.2 4.316 9.625.66.32.35.69.92.134.173.199.164.8 3.992.3 4.316 9.627.66.32.35.67.93.134.173.198.169.799 6.23.3 4.37 9.639.61.24.25.5.13.138.178 5.187.8 5.969.3 4.312 9.632.61.24.25.51.15.139.18 6.189.799 7.962.2 4.39 9.638.51.11.7.23.115.142.18 8 2.799 355 8.1 4.31 9.642.83 1 1.69.88.129.178.197.164.86 332 4.1 4.351 9.578.7.32.31 4.84.117.16.174.138.81 345 4.1 4.322 9.622.72.32.32 5.82.119.162.176.139.898 1.54. 4.916 8.71.15.18.32.26.99.117.144.181.16.898 1.995.1 4.916 8.79.18.13.25.15.98.118.148.185.151.899 2.999.2 4.919 8.73.26.5.14.1.97.119.15.186.152.899 362.3 4.919 8.73.26.15.1.97.119.151.185.154.899 3.986.1 4.923 8.696.25.6.16.2.99.122.154.187.159.899 5.982.1 4.923 8.697.18.14.27.18.11.121.153.189.173.899 7.953.2 4.923 8.698.3 5 2.14.123.152.189.184.9 361 8.3 4.926 8.694.86.34.1.13.87.124.171 1.16.91 327 4. 4.935 8.677.38.6.12.24.69.94.134.162.142.61 192. 2.915 11.523.63.3.33.66.9.149.182 2.16.62 2. 2.921 11.517.69.36 1.79.75.139.172.184.127.61 2.996.1 2.916 11.523.71.39 6.83.69.135.167.175.118.61 341.1 2.916 11.522.72.38 6.84.69.135.167.175.121.61 3.98.1 2.916 11.523.71.38 6.83.7.135.167.178.127.61 5.968.1 2.914 11.526.68.34.39.73.82.142.176.195.152.61 7.933.2 2.913 11.524.6.26.28.56.99.151.183 12.171.6 3.53 8.1 2.96 11.536.98.58.59.12.69.14.171.186.119.62 348 3.99 2.919 11.52.8 6 7.77.65.127.157.176.118 11 169.9 6.13 6.66.366.347.14.121 26.85.21.28 5 12 1.962.9 6.129 6.65.366.347.141.122 9.112 8.3.3 11 2.928.1 6.129 6.68.367.347.141.122.353.131.66.15.18 11 3.396.1 6.128 6.67.366.347.14.121.39.135.71.23.19 11 3.96.11 6.128 6.68.367.346.14.121 7.136.81.37.21 11 5.879.2 6.128 6.67.369.35.142.124 53.121.63.31 12 7.827.3 6.13 6.61.368.352.146.127.152.92.38.2.53 1.199 3.394 8 6.125 6.84 46 52.37 15 18 1.188.134.35 12 39 3.98 6.13 6.6 9 17 64 4.182.124.79.36.15 31

32 Table 2. Continued (l) θ = 315 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997.799 1.56.2 4.35 9.641.76.53.31.35.73.111.77.143.18 2.799 1.999.3 4.37 9.639.76.54.33.39.79.123.7.14.174.197.798 2.988.2 498 9.652.77.54.35 2.84.129.67.139.172.193.8 359.2 4.316 9.625.77.53.33 1.82.127.67.139.171.192.8 3.992.3 4.316 9.627.77.51.32.39.8.124.69.139.172.192.799 6.23.3 4.37 9.639.74 5.25.3.66.13.83.148.18 5.8 5.969.3 4.312 9.632.73 4.25.3.66.13.84.149.18 4.799 7.962.2 4.39 9.638.66.34.13.15 4.72.14.156.185 13.799 355 8.1 4.31 9.642.1.6 4.88.14.7.14.163.188.86 332 4.1 4.351 9.578.85 7.3.34.62.86.74.124.139.165.81 345 4.1 4.322 9.622.86 7.31.34.62.86.74.124.14.166.898 1.54. 4.916 8.71.5.13.12.13.9.28.11.132.161.184.898 1.995.1 4.916 8.79.5.16.8.8.17 1.16.134.159.184.899 2.999.2 4.919 8.73.56.21.1.1.29.58.11.136.162.185.899 362.3 4.919 8.73.57.21.1.1.28.56.11.135.161.184.899 3.986.1 4.923 8.696.55.19.3.1.27.56.12.137.163.186.899 5.982.1 4.923 8.697.51.12.1.11.12.34.111.138.168.192.899 7.953.2 4.923 8.698 1..24.26.9.3.117.137.169.196.9 361 8.3 4.926 8.694.136.66.24.5.15.22.11.14.165.195.91 327 4. 4.935 8.677.73.24.3.35.74.96.126.154.61 192. 2.915 11.523.68 8.28.38.75.55.59.138.175.198.62 2. 2.921 11.517.72.52.32 5.86.69 5.126.156.178.61 2.996.1 2.916 11.523.75.53.35 8.9.74.12.149.169.61 341.1 2.916 11.522.74.53.35 7.9.74.121.15.17.61 3.98.1 2.916 11.523.75.54.35 8.9.74 1.121.153.174.61 5.968.1 2.914 11.526.73.52.32 3.82.61.54.133.171.196.61 7.933.2 2.913 11.524.68 6.24.32.68 4.7.145.186 15.6 3.53 8.1 2.96 11.536.111.85.57.65.113.95.37.125.16.181.62 348 3.99 2.919 11.52.9.7 6.54.89.63 7.118.151.17 11 169.9 6.13 6.66 95.324.346.161.134 71.193.87.26. 12 1.962.9 6.129 6.65 96.324.347.161.134 7.3.11.39.11 11 2.928.1 6.129 6.68 96.324.347.16.134 71.359.128 8.18 11 3.396.1 6.128 6.67 96.323.347.159.133 71.384.135 8.12 11 3.96.11 6.128 6.68 96.324.347.157.132 7 2.14 2. 11 5.879.2 6.128 6.67.3.332.352.162.139 77.326.123.38.5 12 7.827.3 6.13 6.61 99.331.353.167.141 77 31.81.7.24 1.199 3.394 8 6.125 6.84.385 5 37.38 5.353 84.196.117.97 12 39 3.98 6.13 6.6.343.37 7.35 15.38 54.19.55.3

Table 2. Continued (m) Top interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.898.941.799 1.56.2 4.35 9.641.24.23.62.14.799 1.999.3 4.37 9.639.22.21.64.26.798 2.988.2 498 9.652.24.21.66.36.8 359.2 4.316 9.625.23.2.66.32.8 3.992.3 4.316 9.627.24.2.66.29.799 6.23.3 4.37 9.639.24.19.61.7.8 5.969.3 4.312 9.632.24.19.61.8.799 7.962.2 4.39 9.638.24.17.51.26.799 355 8.1 4.31 9.642.81.66.84.2.86 332 4.1 4.351 9.578.57 7.72.2.81 345 4.1 4.322 9.622.56 7.72..898 1.54. 4.916 8.71.7.29.18.62.898 1.995.1 4.916 8.79.9.29.22.55.899 2.999.2 4.919 8.73.1.3.29 2.899 362.3 4.919 8.73.1.3.29 2.899 3.986.1 4.923 8.696.5.28.28 3.899 5.982.1 4.923 8.697.8.31.21.57.899 7.953.2 4.923 8.698.11.34.8.75.9 361 8.3 4.926 8.694.34.3.93.36.91 327 4. 4.935 8.677.5.15 5.35.61 192. 2.915 11.523.32.39.61 2.62 2. 2.921 11.517.35.66.56.61 2.996.1 2.916 11.523.37 2.7.62.61 341.1 2.916 11.522.37 1.69.62.61 3.98.1 2.916 11.523.37 1.7.61.61 5.968.1 2.914 11.526.39 4.66 8.61 7.933.2 2.913 11.524.36 1.6.28.6 3.53 8.1 2.96 11.536.96.16.95.71.62 348 3.99 2.919 11.52.67.77.78.51 11 169.9 6.13 6.66.33.33.353.167 12 1.962.9 6.129 6.65.34.33.354.168 11 2.928.1 6.129 6.68.35.34.354.167 11 3.396.1 6.128 6.67.35.33.354.167 11 3.96.11 6.128 6.68.34.33.354.167 11 5.879.2 6.128 6.67.36.36.358.171 12 7.827.3 6.13 6.61.36.36.357.172 1.199 3.394 8 6.125 6.84.174.163 35 43 12 39 3.98 6.13 6.6.118.117.399 33 33

34 Table 2. Concluded (n) Bottom interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.869.883.941.799 1.56.2 4.35 9.641.39.51.53.54.63.85.89.82.3.799 1.999.3 4.37 9.639.36 8.51.51.61.83.87.81.798 2.988.2 498 9.652.35 7 9 9.6.82.86.81 8.8 359.2 4.316 9.625.35 7.5 9.61.84.88.82 6.8 3.992.3 4.316 9.627.34 6 9 9.62.85.87.82 4.799 6.23.3 4.37 9.639.34 5 8 7.61.84.84.77.23.8 5.969.3 4.312 9.632.34 5 8 7.62.84.83.77.23.799 7.962.2 4.39 9.638.33 3 6 6.61.84.79.71.6.799 355 8.1 4.31 9.642.17.15.19 2.67.55.53.58.86 332 4.1 4.351 9.578.3.19.27.28 9.74.72.7.39.81 345 4.1 4.322 9.622.1.17.25.26 7.73.7.67.39.898 1.54. 4.916 8.71.5.53.5 6.53.76.96.89.2.898 1.995.1 4.916 8.79 5 9 6 3.51.74.98.9.13.899 2.999.2 4.919 8.73 9.52 8 4.53.77.98.92.3.899 362.3 4.919 8.73 8.51 8 5.54.77.99.92.3.899 3.986.1 4.923 8.696 8 9 6 2.52.75.98.91.3.899 5.982.1 4.923 8.697 6 9 6 3.52.76.95.88.15.899 7.953.2 4.923 8.698 6 7 4.5.75.9.82.31.9 361 8.3 4.926 8.694.17 5.6.65.82.11.75.68.17.91 327 4. 4.935 8.677.32 4 8 6.61.87.89.85.17.61 192. 2.915 11.523.27 4 4.56.75.68.62 5.62 2. 2.921 11.517.28 1 5 6.6.78.72.67.6.61 2.996.1 2.916 11.523.29 3 6 8.61.79.74.69.64.61 341.1 2.916 11.522.29 2 5 6.6.79.73.68.65.61 3.98.1 2.916 11.523.3 4 6 8.62.79.75.69.65.61 5.968.1 2.914 11.526.3 2 6 8.6.77.72.67.52.61 7.933.2 2.913 11.524.3 3 7 8.6.77.71.64.34.6 3.53 8.1 2.96 11.536.29.12.3.1.13.35 1.39.82.62 348 3.99 2.919 11.52.3.13.2.22.34.53.61.57.68 11 169.9 6.13 6.66.21 6.7.84.94.95.178.197.167 12 1.962.9 6.129 6.65.21 6.7.84.95.96.177.197.168 11 2.928.1 6.129 6.68.21 6.7.84.95.96.178.197.168 11 3.396.1 6.128 6.67.21 6.7.84.95.96.177.197.168 11 3.96.11 6.128 6.68.2 5.69.83.94.96.177.197.167 11 5.879.2 6.128 6.67.29.55.79.93.11.13.185 7.175 12 7.827.3 6.13 6.61.27.54.78.92.11.13.185 6.176 1.199 3.394 8 6.125 6.84.179.146.113.88.59.22.61.69.13 12 39 3.98 6.13 6.6.65 9.33.27.11.18.147.16.146

Table 3. Static Pressure Coefficients of Afterbody Surface With Horizontal Tail in Mid Position and Vertical Tail in Mid Position (a) θ = at values of x L of 35 M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 12 1.51.5 6.148 6.79.52.75.79.74 5.26.22.7.14.37.87 1.199 1.971.1 6.142 6.99.52.75.8.74 5.26.22.6.15.38.88 1 2.948.2 6.142 6.98.54.75.81.76 7.27.21.5.16.39.91 1 3.392.3 6.143 6.94.54.74.8.77 7.27.21.6.16.39.91 1.198 3.919.1 6.14 6.19.55.75.81.78 8.27.21.5.16.92 1 5.871.2 6.143 6.92.55.74.8.79 9.29.2.16.39.92 1 7.788 6.143 6.93.57.74.81.8.51.29.2.17.92 1.199 3.394 8.2 6.141 6.1 1 18 13.193.146.15.15.133.16.161 1 1.199 349 8.3 6.141 6.1 1 19 13.194.146.14.15.135.161.162 2 1.198 3.395 4.2 6.138 6.19.137.154.151.14.18.84.69.89.12.139.178.91 176.2 4.963 8.729.29.13.2.21.56 6.1.77.153 32.327.91 1.964.2 4.958 8.735.33.16..18.54 5.12.78.154 33.329.92 2.959 4.967 8.723.33.17.1.18.54 5.12.78.154 32.328.91 33. 4.963 8.727.31.16..19.54 4.12.79.155 33.328.9 3.91. 4.956 8.739.31.15..19.54 5.12.78.155 34.33.91 5.937.1 4.96 8.732.32.17.1.19.54 5.13.79.155 34.329.9 7.86.3 4.957 8.737.3.16.1.2.56 5.12.78.154 33.328.898 33 8.3 4.945 8.759.17.14.93.71.3.39.99.173 52.33 22.898 318 3.99 4.946 8.758 1.35.24.7.24.11.52.123.199 78.371.81 189.2 4.351 9.689.33.31.25.16.7.21.98.171 53.328.388.81 1.965 4.354 9.684.32.29.24.16.8.21.98.172 55.331.394.83 2.944.1 4.362 9.673.32.31.25.16.8.21.97.172 55.332.398.82 32.2 4.361 9.676.32.3.24.16.7.21.97.172 54.331.394.82 3.914.3 4.358 9.679.32.3.23.15.9.2.98.173 56.332.396.82 5.862.3 4.358 9.679.33.3.24.15.9.2.98.172 54.33.389.83 7.87. 4.368 9.665.31.29.23.13.1.18.95.168 49.323.382.799 3.389 8 4.342 9.76.99.96.87.76.53.93.186 75.368 62.563.8 3.383 4. 4.345 9.698.57.55 6.36.18.56.146 28.315 71.599 1.5. 2.918 11.631.26.34.33.3.13.54.116.157.196 22 39.599 1.975. 2.917 11.632.25.34.32.29.12.53.117.157.197 24 4.598 2.926. 2.915 11.636.25.33.32.3.13.55.119.159.199 25 42.599 3.372.1 2.919 11.629.22.31.3.26.1.51.114.155.195 22 38.598 3.922.1 2.916 11.634.25.35.33.29.12.54.117.157.198 24 41.599 5.826.3 2.921 11.626.25.35.33.29.13.54.118.157.197 23 39.599 7.77.1 2.919 11.629.24.33.32.28.11.52.115.154.194 19 34.599 311 8.1 2.918 11.633.81.88.85.84.7.127 11 6 98.319.323.6 369 3.99 2.929 11.617 9.56.55.51 1.91.167 11 48 7 8

36 Table 3. Continued (a) Concluded at values of x L of M NPR α, deg q, psi p, psi.869.883.898.912.927.941.951.963.974 12 1.51.5 6.148 6.79.133.175 21 79.346.391 75.366.141 1.199 1.971.1 6.142 6.99.135.175 23 79.347.393 78.371.194 1 2.948.2 6.142 6.98.138.178 25 79.348.395 81.373 42 1 3.392.3 6.143 6.94.139.177 25 78.348.396 81.373 45 1.198 3.919.1 6.14 6.19.141.179 27 8.35.398 84.375 32 1 5.871.2 6.143 6.92.141.179 27 78.348.398 85.374.184 1 7.788 6.143 6.93.143.179 28 78.349.399 86 4.139 1.199 3.394 8.2 6.141 6.1 48 75.321.378 45 91 7 46 45 1.199 349 8.3 6.141 6.1 5 75.322.378 45 92 4 44 42 1.198 3.395 4.2 6.138 6.19 3 56 95.347 16 44.36.164.162.91 176.2 4.963 8.729 13 62 9.135 9.2.5.83.128.91 1.964.2 4.958 8.735 15 69 25.148.55.6.12.78.124.92 2.959 4.967 8.723 15 76.59.16.52.12.26.74.124.91 33. 4.963 8.727 14 76.51.158.52.11.25.75.123.9 3.91. 4.956 8.739 14 81 96.157.54.12.24.74.123.91 5.937.1 4.96 8.732 11 79 61.143 9.5.13.83.131.9 7.86.3 4.957 8.737 11 75 19.123.38.3.94.14.898 33 8.3 4.945 8.759.53.544.342.154.75.15.14.65.12.898 318 3.99 4.946 8.758 52 9.33.125.55.2.21.55.91.81 189.2 4.351 9.689.356 85 1.126.69 4.85 5.122.81 1.965 4.354 9.684.363 9 6.129.73 9.92.39.115.83 2.944.1 4.362 9.673.368 94 9.132.76.53.97.35.19.82 32.2 4.361 9.676.365 92 7.131.75.52.97.34.11.82 3.914.3 4.358 9.679.365 92 7.131.75.51.95.36.111.82 5.862.3 4.358 9.679.357 86 1.126.69 3.84 7.124.83 7.87. 4.368 9.665.348 78.193.118.6.32.66.64.14.799 3.389 8 4.342 9.76.524.326 16.14.8 6.61 8.16.8 3.383 4. 4.345 9.698 5.34 8.133.74 5.71 3.19.599 1.5. 2.918 11.631 18.193.152.117.78.57.86.34.113.599 1.975. 2.917 11.632 19.195.155.121.82.62.9.29.15.598 2.926. 2.915 11.636 21.198.157.123.85.66.91.28.13.599 3.372.1 2.919 11.629 18.194.155.122.83.63.9.3.15.598 3.922.1 2.916 11.634 19.196.156.123.84.64.88.31.17.599 5.826.3 2.921 11.626 18.193.154.121.8.59.82.39.118.599 7.77.1 2.919 11.629 12.188.148.114.73.5.7.53.133.599 311 8.1 2.918 11.633 88 5.197.151.11.71.86.29.1.6 369 3.99 2.929 11.617 52 22.175.134.9.64.86.28.11

Table 3. Continued (b) θ = 45 at values of x L of 37 M NPR α, deg q, psi p, psi.79.723.738.752.767.781.912.941.951.963.974.997 12 1.51.5 6.148 6.79.5.1.11.29.59.85.379.186 33 9.113 1.199 1.971.1 6.142 6.99.51.1.12.29.6.83.379.186 33.3.13.16 1 2.948.2 6.142 6.98.52.1.11.29.6.84.381.188 35.38.147.31 1 3.392.3 6.143 6.94.52.1.11.29.59.84.381.188 35.31.151.27 1.198 3.919.1 6.14 6.19.54.2.11.29.61.83.381.189 36.311.153.18 1 5.871.2 6.143 6.92.54.2.1.29.59.83.381.19 37.314.162.13 1 7.788 6.143 6.93.55.3.1.28.59.83.38.19 38.315.155.3 1.199 3.394 8.2 6.141 6.1.177.85.85.99.18.139.59.351.376.396.199.56 1.199 349 8.3 6.141 6.1.177.86.85.99.18.138.51.351.377.393.55 1.198 3.395 4.2 6.138 6.19.119 5 8.76.19.57 45 44 87.343 1.39.91 176.2 4.963 8.729.11.35.28.83.173 26.62.58.9.136.137.91 1.964.2 4.958 8.735.8.33.27.38.81.17 34.57.54.87.133.129.92 2.959 4.967 8.723.6.31.26.37.82.171 45.53 9.81.126.125.91 33. 4.963 8.727.7.33.26.38.82.17 46.52 9.81.127.128.9 3.91. 4.956 8.739.1.34.27.38.82.172 42.55 9.8.127.132.91 5.937.1 4.96 8.732.11.35.27.38.83.172 33.61.57.89.136.146.9 7.86.3 4.957 8.737.11.35.27.38.83.172 21.69.64.98.147.155.898 33 8.3 4.945 8.759.65.51.74.67.14.82 23.27.5.78.116.121.898 318 3.99 4.946 8.758.19.1.8.53.151 8 9 4.68.18.16.81 189.2 4.351 9.689.17.5.11 8.139.136.24.1.61.117.153.81 1.965 4.354 9.684.1.15.3.9 6.138.14.2.5.55.111.139.83 2.944.1 4.362 9.673.3.17.1 7.141.141.19.2.51.17.136.82 32.2 4.361 9.676.2.15.3.9 6.139.141.18.2.52.17.138.82 3.914.3 4.358 9.679.1.16.3.1 6.139.141.2.3.52.18.143.82 5.862.3 4.358 9.679.1.16.3.1 6.139.134.25.1.61.118.159.83 7.87. 4.368 9.665.2.17.1 7.14.128.33.2.73.132.17.799 3.389 8 4.342 9.76.51.37.54.5.13.92.168.19.17.54.12.13.8 3.383 4. 4.345 9.698.9.8.5.32.134.148.21.7.5.12.126.599 1.5. 2.918 11.631.9.16.2.6.37.121.96.2.2 7.12.155.599 1.975. 2.917 11.632.1.16.2.6.37.121.1.16.8 1.93.127.598 2.926. 2.915 11.636.8.14..5.36.12.13.13.11.36.89.123.599 3.372.1 2.919 11.629.11.17.3.7.37.122.1.15.1.37.91.128.598 3.922.1 2.916 11.634.11.17.3.7.37.12.12.15.11.37.91.134.599 5.826.3 2.921 11.626.12.18.7.37.122.99.19 5.11.159.599 7.77.1 2.919 11.629.11.18.8.39.123.93.24.56.115.175.599 311 8.1 2.918 11.633.28.2.35.33.5.99.141.2.11.36.89.126.6 369 3.99 2.929 11.617.3.9.7.3.24.12.122.8.1.37.92.127

38 Table 3. Continued (c) θ = 9 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.951.963.974.986.997 12 1.51.5 6.148 6.79.55.9.32.61.11.111 2 22.144.75.14 1.199 1.971.1 6.142 6.99.57.8.31.64.12.11 1 25.157.93.35 1 2.948.2 6.142 6.98.56.8.3.65.13.19 1 29.168.18 9 1 3.392.3 6.143 6.94.57.8.3.65.13.19 1 29.171.19 7 1.198 3.919.1 6.14 6.19.58.8.28.68.14.17 1 3.172.18.37 1 5.871.2 6.143 6.92.58.1.27.67.14.18 1 32.173.83.11 1 7.788 6.143 6.93.59.1.27.67.14.17 31.142.21.28 1.199 3.394 8.2 6.141 6.1.97.63.74.99 23 57 64.172.113.54 1.199 349 8.3 6.141 6.1.97.63.3.75.99 23 57 65.172.114.53 1.198 3.395 4.2 6.138 6.19.33.9.11.79.131.133 1 5.191.124 8.91 176.2 4.963 8.729.14.34.25.6.187.55.93.139.172.91 1.964.2 4.958 8.735.12.32.24.5.58.185.51.9.135.168.192.92 2.959 4.967 8.723.1.3.23.6.58.184 6.84.129.161.181.91 33. 4.963 8.727.12.31.24.5.59.186 6.84.13.162.183.9 3.91. 4.956 8.739.12.32.25.5.58.186 5.85.131.164.186.91 5.937.1 4.96 8.732.12.31.25.3.59.186.53.95.142.18 1.9 7.86.3 4.957 8.737.13.31.26.3.6.187.61.15.155.196 31.898 33 8.3 4.945 8.759 3 6.71.148.34 18 4.85.126.156.174.898 318 3.99 4.946 8.758.2.11. 3.34 17.39.78.118.146.164.81 189.2 4.351 9.689.1.18.5.28.34.171.81.128.164.194.81 1.965 4.354 9.684.9.15.3.3.33.17.35.75.122.156.183.83 2.944.1 4.362 9.673.9.16.3.29.33.17.32.72.118.151.174.82 32.2 4.361 9.676.1.16.28.34.171.32.72.118.151.174.82 3.914.3 4.358 9.679.9.15.29.33.171.32.73.12.153.177.82 5.862.3 4.358 9.679.9.15.28.34.171.39.82.13.168.198.83 7.87. 4.368 9.665.9.16.5.27.34.172 8.94.145.187 18.799 3.389 8 4.342 9.76.3.12.31.88.3 32.28.7.115.146.166.8 3.383 4. 4.345 9.698.16.16.33.34 3.27.68.113.145.165.599 1.5. 2.918 11.631.15.15.7.21.33.172.3.73.118.153.18.599 1.975. 2.917 11.632.15.14.6.21.33.172.25.67.11.142.163.598 2.926. 2.915 11.636.14.15.6.21.32.171.21.63.15.135.152.599 3.372.1 2.919 11.629.17.16.8.2.34.174.22.64.17.137.154.598 3.922.1 2.916 11.634.15.15.8.2.33.173.22.64.16.138.157.599 5.826.3 2.921 11.626.15.15.7.21.33.173.27.72.118.153.182.599 7.77.1 2.919 11.629.15.16.8.2.34.174.35.82.13.171 3.599 311 8.1 2.918 11.633.28.16.1 4.25 39.21.62.15.135.153.6 369 3.99 2.929 11.617.3.25.13.16.19.23.63.16.136.154

Table 3. Continued (d) θ = 135 at values of x L of 39 M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.869 12 1.51.5 6.148 6.79.66.77.77.65.73.99.71.77.86.11.151 1.199 1.971.1 6.142 6.99.67.78.79.65.75.13.73.79.89.113.153 1 2.948.2 6.142 6.98.67.79.8.64.76.15.74.8.9.114.155 1 3.392.3 6.143 6.94.67.79.79.64.76.15.74.79.89.113.155 1.198 3.919.1 6.14 6.19.69.8.81.64.78.17.74.81.9.115.157 1 5.871.2 6.143 6.92.7.82.82.64.77.16.74.81.9.115.158 1 7.788 6.143 6.93.71.82.81.63.77.16.74.81.9.114.159 1.199 3.394 8.2 6.141 6.1.144.99.53.1.37.67.7.3.13.51 1.199 349 8.3 6.141 6.1.144.99.53..38.67.7.31 1.14.51 1.198 3.395 4.2 6.138 6.19.56.34.3.33.52.8 9 5.61.114.91 176.2 4.963 8.729.36.29.36.24.7.3.7.36.5.72.11.91 1.964.2 4.958 8.735.37.31.38.26.9.1.1.38.51.72.111.92 2.959 4.967 8.723.39.32.38.26.9.2.1.39.52.74.114.91 33. 4.963 8.727.37.3.37.26.9.3.9.39.52.74.113.9 3.91. 4.956 8.739.36.3.36.26.8.9.37.5.72.112.91 5.937.1 4.96 8.732.36.3.36.26.8.9.38.5.72.11.9 7.86.3 4.957 8.737.35.29.36.26.7.5.8.37.5.71.19.898 33 8.3 4.945 8.759.62.83.111.115.85 9.35.33 2.64.898 318 3.99 4.946 8.758.39 4.58.51.27.5.1.31.39.57.91.81 189.2 4.351 9.689.3.37.5.24.14.19 6.62.87.81 1.965 4.354 9.684.3.37.51.25.15.21 1 7.63.88.83 2.944.1 4.362 9.673.3.38.51 1.25.14.21 1 7.63.89.82 32.2 4.361 9.676.3.37.51 1.25.14.21 1 7.63.88.82 3.914.3 4.358 9.679.29.36.5 1.24.13.2 2 7.63.88.82 5.862.3 4.358 9.679.3.36 9.24.13.2 1 7.62.87.83 7.87. 4.368 9.665.31.37.5 1.24.13.2 1 7.62.85.799 3.389 8 4.342 9.76.19.39.63.62.15.3.6.2.13.37.8 3.383 4. 4.345 9.698.14.26 3.38.17.1..16.21.38.64.599 1.5. 2.918 11.631.19.3 3.38.21.11.15.3.32 6.57.599 1.975. 2.917 11.632.19.3 4.39.21.11.15.31.32 6.58.598 2.926. 2.915 11.636.2.31 4.22.12.16.32.34 8.6.599 3.372.1 2.919 11.629.17.29 2.38.2.1.14.3.32 6.58.598 3.922.1 2.916 11.634.19.31 4.22.11.15.31.34 7.59.599 5.826.3 2.921 11.626.2.31 4.21.11.15.3.33 7.58.599 7.77.1 2.919 11.629.2.31 4.21.1.15.31.33 7.57.599 311 8.1 2.918 11.633.8.1.31.31.9.1.21.19.25.13.3.6 369 3.99 2.929 11.617.5.1.27.22.5.9.12...17.34

4 Table 3. Continued (d) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 1.51.5 6.148 6.79.146.126.156.192 1 61.331 12.67.3 1.199 1.971.1 6.142 6.99.142.125.158.195 3 62.334 33.121.26 1 2.948.2 6.142 6.98.145.126.16.195 5 63.338 4.148.5 1 3.392.3 6.143 6.94.145.126.159.195 5 64.34 42.148 9 1.198 3.919.1 6.14 6.19.143.127.162.197 7 65.341 4.139 1 5.871.2 6.143 6.92.147.127.161.196 7 64.342 28.83 1 7.788 6.143 6.93.147.128.162.197 7 66.344.183.39.25 1.199 3.394 8.2 6.141 6.1.65.14.152.168.161 24.334 38.154.88 1.199 349 8.3 6.141 6.1.66.15.152.168.161 23.333 35.151.86 1.198 3.395 4.2 6.138 6.19.19.14.13.161.162 32.311 22.133.63.91 176.2 4.963 8.729.127.139.11.72.13.34 9.115.157.171.91 1.964.2 4.958 8.735.128.139.111.74.15.37 6.11.152.162.92 2.959 4.967 8.723.131.143.114.77.17.39 4.18.148.154.91 33. 4.963 8.727.129.141.112.75.15.39 5.19.148.156.9 3.91. 4.956 8.739.128.14.111.75.15.39 6.11.15.16.91 5.937.1 4.96 8.732.126.138.18.7.1.32.55.121.165.183.9 7.86.3 4.957 8.737.123.134.14.65.3.2.69.136.182 5.898 33 8.3 4.945 8.759.77.91.78.58.12 1 4.18.148.149.898 318 3.99 4.946 8.758.18.122.12.74.23.38.37.96.131.133.81 189.2 4.351 9.689.9.94.77.56.9.36 6.11.154.173.81 1.965 4.354 9.684.92.97.8.59.12 1 1.13.146.161.83 2.944.1 4.362 9.673.93.98.81.61.14 4.39.1.142.154.82 32.2 4.361 9.676.93.98.81.61.14 4.39.1.142.155.82 3.914.3 4.358 9.679.93.98.81.6.13 3.12.144.159.82 5.862.3 4.358 9.679.9.95.77.56.7.34.5.114.159.181.83 7.87. 4.368 9.665.89.92.73.51..24.63.129.176 3.799 3.389 8 4.342 9.76 6.58.51.39 1.11.14.147.8 3.383 4. 4.345 9.698.72.82.69.54.13.35.96.131.143.599 1.5. 2.918 11.631.58.62 9.39.1.21.56.113.152.173.599 1.975. 2.917 11.632.59.64.52 3.24.52.18.142.156.598 2.926. 2.915 11.636.6.66.53 4.6.25.51.16.14.149.599 3.372.1 2.919 11.629.58.64.52 3.23.53.18.142.153.598 3.922.1 2.916 11.634.59.65.52 4.5.22.55.11.144.158.599 5.826.3 2.921 11.626.58.64.51 1.1.17.61.12.158.181.599 7.77.1 2.919 11.629.57.62 7.37.9.72.133.176 4.599 311 8.1 2.918 11.633.11.24.19.19.11.14.57.11.143.148.6 369 3.99 2.929 11.617.39 8.39.34..18 9.11.134.144

Table 3. Continued (e) θ = 18 at values of x L of 41 M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 12 1.51.5 6.148 6.79.21.54.8.84.81.83.14.123.135.14.156 1.199 1.971.1 6.142 6.99.24.55.82.87.82.84.16.125.137.143.159 1 2.948.2 6.142 6.98.25.55.83.87.82.85.18.126.137.144.161 1 3.392.3 6.143 6.94.25.54.83.88.82.85.18.125.136.143.161 1.198 3.919.1 6.14 6.19.27.54.83.89.83.85.19.126.138.145.163 1 5.871.2 6.143 6.92.26.53.83.88.82.85.11.126.137.144.162 1 7.788 6.143 6.93.27.51.83.89.82.85.111.126.136.143.163 1.199 3.394 8.2 6.141 6.1.183.138.13.78.53.21.31.61.66.63.65 1.199 349 8.3 6.141 6.1.183.138.12.78.53.21.31.61.65.62.65 1.198 3.395 4.2 6.138 6.19.74.5.28.18.7.17.61.9.11.125.14.91 176.2 4.963 8.729 9.51 7.37.31 1.56.62.72.85.95.91 1.964.2 4.958 8.735.51.53 9.39.32 2.57.63.73.86.97.92 2.959 4.967 8.723.53.54 9.39.33 3.59.65.75.88.99.91 33. 4.963 8.727.5.52 9.39.32 2.57.64.74.87.98.9 3.91. 4.956 8.739 9.52 8.38.31 1.56.63.73.86.97.91 5.937.1 4.96 8.732.5.52 8.38.32 2.56.62.72.85.96.9 7.86.3 4.957 8.737 9.52 7.37.32 1.55.62.72.85.94.898 33 8.3 4.945 8.759.32.67.78.76.71.78.81.74.7.71.7.898 318 3.99 4.946 8.758.34.54.55 7 2.5.6.63.68.77.83.81 189.2 4.351 9.689.37.53.53 5 1.5.62.65.68.75.78.81 1.965 4.354 9.684.38.53.55 7 2.52.63.66.7.76.8.83 2.944.1 4.362 9.673.38.54.54 7 2.52.63.66.7.77.81.82 32.2 4.361 9.676.38.53.54 7 3.52.63.66.71.77.81.82 3.914.3 4.358 9.679.37.53.54 6 3.52.63.66.71.77.81.82 5.862.3 4.358 9.679.37.53.53 6 2.51.62.65.7.76.8.83 7.87. 4.368 9.665.38.54.54 6 3.52.61.66.69.75.78.799 3.389 8 4.342 9.76.3.26.33.29.28.36 1 1 2.8 3.383 4. 4.345 9.698.1.34.36.3.29.37 5 8.52.56.59.599 1.5. 2.918 11.631.28 5 4.38.34 2.5.53.56.54.53.599 1.975. 2.917 11.632.27 6 5.38.35 3.51.54.57.55.54.598 2.926. 2.915 11.636.28 6 5.38.35 3.51.54.57.55.55.599 3.372.1 2.919 11.629.26 5 4.36.34 2 9.53.56.54.52.598 3.922.1 2.916 11.634.28 7 5.38.35 3.51.54.57.54.53.599 5.826.3 2.921 11.626.27 6 4.37.35 2.5.54.56.53.52.599 7.77.1 2.919 11.629.27 7 4.38.35 3.5.53.56.53.51.599 311 8.1 2.918 11.633.26.1.2.3.12.12.14.11.1.6 369 3.99 2.929 11.617.5.17.17.11.1.18.27.29.33.31.31

42 Table 3. Continued (e) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.974.986 12 1.51.5 6.148 6.79.171.168.181.192 17 41 44 8 1.199 1.971.1 6.142 6.99.171.169.18.193 13 37 87.14 1 2.948.2 6.142 6.98.171.169.18.195 15 4 95.138 1 3.392.3 6.143 6.94.17.168.18.196 16 41 96.137 1.198 3.919.1 6.14 6.19.171.169.18.197 15 4 95.13 1 5.871.2 6.143 6.92.169.169.181.198 18 43 81.76 1 7.788 6.143 6.93.168.169.182.199 18 44 7 1.199 3.394 8.2 6.141 6.1.56.63.13.145 1 12.328.195 1.199 349 8.3 6.141 6.1.56.64.13.146 1 11.326.192 1.198 3.395 4.2 6.138 6.19.142.137.145.154.179 6 64.136.91 176.2 4.963 8.729.19.11.19.94.98.119.114.157.91 1.964.2 4.958 8.735.11.111.11.96.11.12.11.151.92 2.959 4.967 8.723.112.114.113.98.13.126.16.147.91 33. 4.963 8.727.111.112.111.96.12.124.17.148.9 3.91. 4.956 8.739.112.112.111.96.13.124.17.149.91 5.937.1 4.96 8.732.19.11.18.92.97.116.117.161.9 7.86.3 4.957 8.737.18.17.14.86.9.14.131.177.898 33 8.3 4.945 8.759.78.8.9.88.118.171.16.146.898 318 3.99 4.946 8.758.1.12.18.11.123.161.93.129.81 189.2 4.351 9.689.82.79.82.76.89.16.11.156.81 1.965 4.354 9.684.85.82.85.8.94.112.14.148.83 2.944.1 4.362 9.673.86.84.88.81.97.115.1.144.82 32.2 4.361 9.676.86.83.87.81.97.115.11.144.82 3.914.3 4.358 9.679.86.84.87.81.96.115.12.146.82 5.862.3 4.358 9.679.84.81.83.76.9.15.113.161.83 7.87. 4.368 9.665.83.78.78.69.81.92.127.178.799 3.389 8 4.342 9.76.55.55.67.71.14.144.97.141.8 3.383 4. 4.345 9.698.73.71.79.77.14.132.94.135.599 1.5. 2.918 11.631.62.55.61.56.78.85.11.157.599 1.975. 2.917 11.632.65.58.64.6.85.92.12.147.598 2.926. 2.915 11.636.67.59.66.62.87.91.11.144.599 3.372.1 2.919 11.629.65.57.63.6.85.9.12.146.598 3.922.1 2.916 11.634.65.57.64.61.86.89.14.148.599 5.826.3 2.921 11.626.64.55.61.57.8.83.114.163.599 7.77.1 2.919 11.629.61.52.57.51.72.71.128.181.599 311 8.1 2.918 11.633.28.24.38 3.79.11.14.148.6 369 3.99 2.929 11.617 7 2.53.54.84.11.98.14

Table 3. Continued (f) θ = 225 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 1.51.5 6.148 6.79.197.197.174.135.196.31.189.139.119.82 1.199 1.971.1 6.142 6.99.197.197.172.129.192.311 42.154.133.96 1 2.948.2 6.142 6.98.197.198.173.131.194.313 87.166.146.112 1 3.392.3 6.143 6.94.195.198.174.132.195.314 88.166.148.115 1.198 3.919.1 6.14 6.19.197.199.173.129.193.315 93.167.147.115 1 5.871.2 6.143 6.92.194.198.175.134.199.317.334.172.13.82 1 7.788 6.143 6.93.193.198.176.134.199.317 13.116.39.1 1.199 3.394 8.2 6.141 6.1.71.65.53.51.175.31 46.35 6.123 1.199 349 8.3 6.141 6.1.71.65.53.51.175.32 46.34 6.122 1.198 3.395 4.2 6.138 6.19.165.16.131.93.171 95 24.198.124.72.91 176.2 4.963 8.729.116.95.71.72.143.176.57.123.158.18.91 1.964.2 4.958 8.735.118.97.73.73.145.178.57.123.158.176.92 2.959 4.967 8.723.119.99.76.77.151.189 9.117.152.169.91 33. 4.963 8.727.118.97.74.75.149.185.51.118.155.171.9 3.91. 4.956 8.739.119.99.75.76.149.184.51.118.154.173.91 5.937.1 4.96 8.732.117.96.71.73.143.176.55.124.162.187.9 7.86.3 4.957 8.737.115.91.67.68.136.167.61.13.169.199.898 33 8.3 4.945 8.759.98.77.61.79.189 99.22.19.151.167.898 318 3.99 4.946 8.758.116.96.78.91.193 82.11.93.129.14.81 189.2 4.351 9.689.9.69 9.53.122.153.6.126.162.187.81 1.965 4.354 9.684.93.73.53.59.131.165.51.12.157.178.83 2.944.1 4.362 9.673.95.74.55.61.135.17 8.118.155.174.82 32.2 4.361 9.676.94.74.56.61.135.171 7.118.155.174.82 3.914.3 4.358 9.679.94.74.56.61.133.169 8.119.157.177.82 5.862.3 4.358 9.679.92.71.51.55.123.152.59.126.163.19.83 7.87. 4.368 9.665.89.65 4 6.18.132.72.134.171 5.799 3.389 8 4.342 9.76.75.55 3.63.167 45.15.12.148.171.8 3.383 4. 4.345 9.698.88.67.52.65.154 12.26.12.14.161.599 1.5. 2.918 11.631.73.53.39 9.119.152 4.127.17.192.599 1.975. 2.917 11.632.76.57 4.56.129.167.32.116.158.174.598 2.926. 2.915 11.636.78.59 6.58.132.171.28.113.155.168.599 3.372.1 2.919 11.629.77.57 4.57.131.168.3.114.155.171.598 3.922.1 2.916 11.634.77.56 3.57.13.169.3.115.157.175.599 5.826.3 2.921 11.626.76.54.51.121.154 2.126.168.195.599 7.77.1 2.919 11.629.71 9.34 1.17.136.57.136.179 14.599 311 8.1 2.918 11.633 7.31.23 6.142 2.19.115.16.175.6 369 3.99 2.929 11.617.64 5.35.53.139.188.23.19.15.167 43

44 Table 3. Continued (g) θ = 24 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986 12 1.51.5 6.148 6.79 5.15.116.156 11.156.164.134 1.199 1.971.1 6.142 6.99 7.147.111.151 12.179.187.155 1 2.948.2 6.142 6.98 9.148.112.153 13.198 3.171 1 3.392.3 6.143 6.94 11.148.113.155 12 5.173 1.198 3.919.1 6.14 6.19 12.147.111.152 13 2 5.173 1 5.871.2 6.143 6.92 13.15.116.158 15 18 11.158 1 7.788 6.143 6.93 14.15.116.158 14 73.157.54 1.199 3.394 8.2 6.141 6.1.75.34.32.115 4.534 71 54 1.199 349 8.3 6.141 6.1.75.35.32.115 4.534 71 53 1.198 3.395 4.2 6.138 6.19.17.14.75.126 1.334 16.156.91 176.2 4.963 8.729.99.6.54.95.195.67.13.14.91 1.964.2 4.958 8.735.11.62.56.96.195.67.14.142.92 2.959 4.967 8.723.13.65.6.14 8.61.99.138.91 33. 4.963 8.727.1.64.58.11 6.63.12.14.9 3.91. 4.956 8.739.1.65.59.11 7.63.11.139.91 5.937.1 4.96 8.732.97.61.55.96 2.67.16.144.9 7.86.3 4.957 8.737.92.57 9.89.193.72.19.148.898 33 8.3 4.945 8.759.81.56.65.143.34 1.94.135.898 318 3.99 4.946 8.758.98.71.76.148.333.27.72.15.81 189.2 4.351 9.689.73.38.34.7.174.78.114.153.81 1.965 4.354 9.684.76 3.8.192.71.11.15.83 2.944.1 4.362 9.673.78 5 3.85.197.68.19.149.82 32.2 4.361 9.676.77 5 3.85.198.69.19.148.82 3.914.3 4.358 9.679.77 5 3.84.197.69.111.15.82 5.862.3 4.358 9.679.73.36.72.176.78.114.153.83 7.87. 4.368 9.665.66.33.25.55.148.9.119.156.799 3.389 8 4.342 9.76.6.37 8.119.32 2.99.144.8 3.383 4. 4.345 9.698.69 3 8.12 57.53.94.131.599 1.5. 2.918 11.631.51.3.34.81 8.75.138.175.599 1.975. 2.917 11.632.55.36 2.9 28.64.13.167.598 2.926. 2.915 11.636.56.38 4.94 34.6.128.164.599 3.372.1 2.919 11.629.55.36 2.92 31.62.13.165.598 3.922.1 2.916 11.634.55.36 1.92 31.63.13.167.599 5.826.3 2.921 11.626.52.32.35.81 11.74.137.174.599 7.77.1 2.919 11.629 5.25.24.66.182.88.143.179.599 311 8.1 2.918 11.633.32.18.33.16 82.54.133.176.6 369 3.99 2.929 11.617 6.28.37.97 58.57.122.161

Table 3. Continued (h) θ = 255 at values of x L of 45 M NPR α, deg q, psi p, psi.941.963.974.986.997 12 1.51.5 6.148 6.79.16.183.115.8.24 1.199 1.971.1 6.142 6.99.158 11.137.13 7 1 2.948.2 6.142 6.98.16 35.153.12.66 1 3.392.3 6.143 6.94.162 37.154.12.65 1.198 3.919.1 6.14 6.19.16 39.154.118.57 1 5.871.2 6.143 6.92.165 58.155.93.15 1 7.788 6.143 6.93.165 6.178.123.5 1.199 3.394 8.2 6.141 6.1.12 55 56 52 19 1.199 349 8.3 6.141 6.1.12 53 55 49 17 1.198 3.395 4.2 6.138 6.19.135.185.196.194.156.91 176.2 4.963 8.729.72 4.78.125.165.91 1.964.2 4.958 8.735.72 5.81.129.167.92 2.959 4.967 8.723.82.39.76.124.161.91 33. 4.963 8.727.78 1.77.125.161.9 3.91. 4.956 8.739.79 1.78.125.163.91 5.937.1 4.96 8.732.74 4.8.128.169.9 7.86.3 4.957 8.737.69 7.83.129.173.898 33 8.3 4.945 8.759.13.13.63.118.157.898 318 3.99 4.946 8.758.133.8.35.76.111.81 189.2 4.351 9.689 1.68.1.145.184.81 1.965 4.354 9.684.52.63.96.144.18.83 2.944.1 4.362 9.673.58.62.97.143.177.82 32.2 4.361 9.676.58.6.96.143.178.82 3.914.3 4.358 9.679.56.61.96.143.178.82 5.862.3 4.358 9.679 3.67.11.145.184.83 7.87. 4.368 9.665.24.77.16.148.189.799 3.389 8 4.342 9.76.97.28.7.127.167.8 3.383 4. 4.345 9.698.74.37.69.115.152.599 1.5. 2.918 11.631.61.95.142.179 5.599 1.975. 2.917 11.632.73.88.139.174.192.598 2.926. 2.915 11.636.77.88.141.174.191.599 3.372.1 2.919 11.629.75.9.143.176.193.598 3.922.1 2.916 11.634.75.92.143.177.197.599 5.826.3 2.921 11.626.61.99.146.182 9.599 7.77.1 2.919 11.629 3.17.147.186 2.599 311 8.1 2.918 11.633.92.84.141.18.197.6 369 3.99 2.929 11.617.78.79.13.164.183

46 Table 3. Continued (i) θ = 27 at values of x L of M NPR α, deg q, psi p, psi.951.963.974.986 12 1.51.5 6.148 6.79 61.118.17.92 1.199 1.971.1 6.142 6.99 95.137.126.112 1 2.948.2 6.142 6.98.318.152.142.129 1 3.392.3 6.143 6.94.32.153.143.13 1.198 3.919.1 6.14 6.19.322.154.143.129 1 5.871.2 6.143 6.92.34.165.15.115 1 7.788 6.143 6.93 53.146.171.15 1.199 3.394 8.2 6.141 6.1.33.19 38 53 1.199 349 8.3 6.141 6.1.328.188 37 5 1.198 3.395 4.2 6.138 6.19 14.15.186.195.91 176.2 4.963 8.729.3.36.75.121.91 1.964.2 4.958 8.735.5.8.127.92 2.959 4.967 8.723.5.32.75.122.91 33. 4.963 8.727.3.35.77.123.9 3.91. 4.956 8.739.34.78.124.91 5.937.1 4.96 8.732.1.36.77.124.9 7.86.3 4.957 8.737.2.36.76.122.898 33 8.3 4.945 8.759.57.5.54.115.898 318 3.99 4.946 8.758.65.39.2.58.81 189.2 4.351 9.689.36.64.99.141.81 1.965 4.354 9.684.27.58.95.14.83 2.944.1 4.362 9.673.18.57.96.14.82 32.2 4.361 9.676.19.55.94.14.82 3.914.3 4.358 9.679.21.54.94.14.82 5.862.3 4.358 9.679.34.62.99.142.83 7.87. 4.368 9.665.5.72.15.145.799 3.389 8 4.342 9.76.13.16.7.126.8 3.383 4. 4.345 9.698.7.3.67.111.599 1.5. 2.918 11.631.3.88.143.182.599 1.975. 2.917 11.632.17.82.142.179.598 2.926. 2.915 11.636.19.82.142.179.599 3.372.1 2.919 11.629.17.84.144.181.598 3.922.1 2.916 11.634.15.84.145.182.599 5.826.3 2.921 11.626.1.91.147.185.599 7.77.1 2.919 11.629.25.98.149.188.599 311 8.1 2.918 11.633.33.76.143.184.6 369 3.99 2.929 11.617.17.72.129.167

Table 3. Continued (j) θ = 285 at values of x L of M NPR α, deg q, psi p, psi.927.941.951.963.974.986.997 12 1.51.5 6.148 6.79.199 64.159.16.134.144.111 1.199 1.971.1 6.142 6.99 67.189.124.154.166.132 1 2.948.2 6.142 6.98 2 7 15.138.171.185.146 1 3.392.3 6.143 6.94 2 7 18.139.173.188.148 1.198 3.919.1 6.14 6.19 4 72 2.139.174.189.149 1 5.871.2 6.143 6.92 3 72 42.152.185.194.138 1 7.788 6.143 6.93 4 72 52.163.148.111.9 1.199 3.394 8.2 6.141 6.1 58.38.513 68 9 1.117 1.199 349 8.3 6.141 6.1 58.39.514 67 9.116 1.198 3.395 4.2 6.138 6.19 65.314 45.189.163.147.72.91 176.2 4.963 8.729 8.3.6.74.124.181.91 1.964.2 4.958 8.735.52.3.8 4.8.13.184.92 2.959 4.967 8.723.65 1.2.38.75.126.18.91 33. 4.963 8.727.62.38.2 1.8.13.181.9 3.91. 4.956 8.739.62.39.1.79.13.181.91 5.937.1 4.96 8.732.55.37.3 1.79.131.182.9 7.86.3 4.957 8.737 6.33.6.77.129.182.898 33 8.3 4.945 8.759.121.13.54.3.59.125.177.898 318 3.99 4.946 8.758.77.8.69.39.2.64.125.81 189.2 4.351 9.689.21.8.16.65.96.141.191.81 1.965 4.354 9.684.33.23.1.58.92.139.187.83 2.944.1 4.362 9.673.39.31.7.56.92.139.187.82 32.2 4.361 9.676.38.31.9.56.92.139.186.82 3.914.3 4.358 9.679.37.29.8.57.93.139.186.82 5.862.3 4.358 9.679.24.11.11.64.98.142.19.83 7.87. 4.368 9.665.1.17.36.75.15.145.193.799 3.389 8 4.342 9.76 2.25.12.2.68.131.19.8 3.383 4. 4.345 9.698.2.5.6.31.65.115.167.599 1.5. 2.918 11.631.53.68.63.79.127.173 3.599 1.975. 2.917 11.632.61.81.81.69.12.166.19.598 2.926. 2.915 11.636.64.86.88.66.12.164.186.599 3.372.1 2.919 11.629.62.83.85.67.121.165.188.598 3.922.1 2.916 11.634.63.83.85.67.121.165.187.599 5.826.3 2.921 11.626.53.68.64.76.127.172.199.599 7.77.1 2.919 11.629.38 5.32.85.132.176 8.599 311 8.1 2.918 11.633.75.95.99.65.125.175.198.6 369 3.99 2.929 11.617.62.7.56.56.18.158.186 47

48 Table 3. Continued (k) θ = 3 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.997 12 1.51.5 6.148 6.79 35 45 9 51 84.12.67.19.8 1.199 1.971.1 6.142 6.99 36 45 1 53.323.117.84 1.1 1 2.948.2 6.142 6.98 39 46 13 55.342.133.98.61.23 1 3.392.3 6.143 6.94 39 46 13 55.344.134.98.6.18 1.198 3.919.1 6.14 6.19 41 48 15 57.344.133.95.54.8 1 5.871.2 6.143 6.92 4 47 16 57.315.144.79.16.24 1 7.788 6.143 6.93 4 46 17 58.156.151.124.81 2 1.199 3.394 8.2 6.141 6.1.357.339 73 93.194 24 33 14.52 1.199 349 8.3 6.141 6.1.357.339 73 94.192 22 31 13 9 1.198 3.395 4.2 6.138 6.19.32.313 74.31.145.166.171.156.32.91 176.2 4.963 8.729.12.65 5.3 3.77.123.174.133.91 1.964.2 4.958 8.735.145.77 9.3 5.82.127.176.125.92 2.959 4.967 8.723.167.9.61 1.38.76.122.171.121.91 33. 4.963 8.727.165.88.57 1.77.123.171.124.9 3.91. 4.956 8.739.17.9.58.77.122.172.126.91 5.937.1 4.96 8.732.136.76.5.35 2.77.123.177.14.9 7.86.3 4.957 8.737.99.58 1.3 3.77.123.181.149.898 33 8.3 4.945 8.759.131.119.112.98.7.57.117.172.115.898 318 3.99 4.946 8.758.77.68.7.76.27.9.62.129.99.81 189.2 4.351 9.689.156.74.37.35.8.14.142.185.151.81 1.965 4.354 9.684.164.83 7 9.75.11.141.183.137.83 2.944.1 4.362 9.673.169.88.53.57.74.11.141.179.134.82 32.2 4.361 9.676.167.87.53.57.72.11.141.18.136.82 3.914.3 4.358 9.679.166.86.51.55.72.1.14.181.14.82 5.862.3 4.358 9.679.157.77.39.38.79.14.141.187.156.83 7.87. 4.368 9.665.142.58.18.12.84.16.141.192.165.799 3.389 8 4.342 9.76.136.75 8 7.3.69.121.181.124.8 3.383 4. 4.345 9.698.144.68.32.28 2.68.19.165.121.599 1.5. 2.918 11.631.136.8.61.8.95.143.175 7.16.599 1.975. 2.917 11.632.14.85.68.9.86.139.17.196.135.598 2.926. 2.915 11.636.143.89.71.95.85.139.169.194.134.599 3.372.1 2.919 11.629.141.86.69.92.87.141.171.197.139.598 3.922.1 2.916 11.634.141.88.7.93.89.143.171.146.599 5.826.3 2.921 11.626.136.82.61.8.99.146.177 13.168.599 7.77.1 2.919 11.629.128.71 8.61.112.148.182 24.185.599 311 8.1 2.918 11.633.176.19.84.11.82.14.173.199.131.6 369 3.99 2.929 11.617.154.95.7.84.77.129.159.186.131

Table 3. Continued (l) θ = 315 at values of x L of 49 M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 1.51.5 6.148 6.79.183.195 43 27 99.316.19.123.17.1 1.199 1.971.1 6.142 6.99.184.193 43 26.3.372.129.146.13.12 1 2.948.2 6.142 6.98.185.193 44 28.31 2.147.164.151.139 1 3.392.3 6.143 6.94.184.191 43 27.3 8.149.166.153.143 1.198 3.919.1 6.14 6.19.186.192 45 28.32 14.151.168.154.146 1 5.871.2 6.143 6.92.184.19 43 27.3 24.164.177.148.132 1 7.788 6.143 6.93.185.189 43 27.3 27 25.161.86.31 1.199 3.394 8.2 6.141 6.1.312.316.343.39.354 81 16 57.19.119 1.199 349 8.3 6.141 6.1.312.316.344.39.354 82 16 56.189.118 1.198 3.395 4.2 6.138 6.19 7 79.316 88.355 74 84 8.118.69.91 176.2 4.963 8.729.392 1.83.52.34.5.54.84.128.171.91 1.964.2 4.958 8.735 23 34.94.55.37.12.61.91.13.172.92 2.959 4.967 8.723 41 62.11.64 7.2.56.87.127.167.91 33. 4.963 8.727 41 6.17.62 4.21.59.9.13.169.9 3.91. 4.956 8.739 45 66.19.63 6.2.59.88.131.17.91 5.937.1 4.96 8.732 17 29.93.58.1.57.87.135.175.9 7.86.3 4.957 8.737.365.177.76.52.35.1.53.83.136.179.898 33 8.3 4.945 8.759.367.19.128.11.88 3.2.67.124.167.898 318 3.99 4.946 8.758 58.129.88.81.76 7.18.17.86.138.81 189.2 4.351 9.689 41.16.85.53.63.82.82.122.152.184.81 1.965 4.354 9.684 48.167.92.61.74.98.72.119.147.179.83 2.944.1 4.362 9.673 52.17.97.66.8.16.69.117.146.175.82 32.2 4.361 9.676 5.17.95.65.79.17.68.117.146.174.82 3.914.3 4.358 9.679 5.17.95.64.78.16.68.118.148.176.82 5.862.3 4.358 9.679 44.162.87.55.66.85.8.122.154.187.83 7.87. 4.368 9.665 32.151.73.39 5.56.97.126.159.197.799 3.389 8 4.342 9.76 63.161.91.67.8.97.59.94.138.178.8 3.383 4. 4.345 9.698 52.163.86.56.6.62.59.83.123.16.599 1.5. 2.918 11.631.169.133.84.73.97.124.55.131.168.191.599 1.975. 2.917 11.632.172.137.89.79.16.138 4.122.156.178.598 2.926. 2.915 11.636.176.14.92.83.11.143.39.117.153.172.599 3.372.1 2.919 11.629.172.138.9.81.18.142 1.119.155.174.598 3.922.1 2.916 11.634.173.139.91.82.19.141 1.12.157.176.599 5.826.3 2.921 11.626.171.135.86.75.98.125.54.13.169.193.599 7.77.1 2.919 11.629.164.128.77.63.83.14.7.141.179 1.599 311 8.1 2.918 11.633 24.175.114.99.128.168.39.125.161.181.6 369 3.99 2.929 11.617.195.152.99.85.13.121 6.116.148.17

5 Table 3. Continued (m) Top interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.898.941 12 1.51.5 6.148 6.79.38 24 62 1.199 1.971.1 6.142 6.99 1.37 26 67 1 2.948.2 6.142 6.98 3.39 28 71 1 3.392.3 6.143 6.94 4.38 28 7 1.198 3.919.1 6.14 6.19 5.38 31 72 1 5.871.2 6.143 6.92 5.37 29 72 1 7.788 6.143 6.93 6.38 31 71 1.199 3.394 8.2 6.141 6.1.178.167.346 95 1.199 349 8.3 6.141 6.1.179.166.347 95 1.198 3.395 4.2 6.138 6.19.128.125.311 98.91 176.2 4.963 8.729.16.122.24.91 1.964.2 4.958 8.735 4.19.148.27.92 2.959 4.967 8.723 3.18.168.38.91 33. 4.963 8.727 2.17.167.35.9 3.91. 4.956 8.739 2.18.172.36.91 5.937.1 4.96 8.732 2.18.139.32.9 7.86.3 4.957 8.737 1.17.12.23.898 33 8.3 4.945 8.759.96.72.139.86.898 318 3.99 4.946 8.758 4.29.86.63.81 189.2 4.351 9.689 2.3.154.12.81 1.965 4.354 9.684 2.31.161.2.83 2.944.1 4.362 9.673 2.31.166.11.82 32.2 4.361 9.676 2.3.164.1.82 3.914.3 4.358 9.679 1.31.164.9.82 5.862.3 4.358 9.679 3.32.155.8.83 7.87. 4.368 9.665.3.14.32.799 3.389 8 4.342 9.76.92.73.138.25.8 3.383 4. 4.345 9.698.61 9.143..599 1.5. 2.918 11.631.35.35.133.5.599 1.975. 2.917 11.632.33.35.136.63.598 2.926. 2.915 11.636.35.36.139.69.599 3.372.1 2.919 11.629.31.34.137.67.598 3.922.1 2.916 11.634.35.36.138.67.599 5.826.3 2.921 11.626.34.36.133.51.599 7.77.1 2.919 11.629.31.34.125.27.599 311 8.1 2.918 11.633.75.74.171.73.6 369 3.99 2.929 11.617.51.52.151.52

Table 3. Concluded (n) Bottom interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.869.883.941 12 1.51.5 6.148 6.79.22 7.71.85.96.98.183.167 1.199 1.971.1 6.142 6.99.24 8.72.87.98.99.185 2.167 1 2.948.2 6.142 6.98.24 7.72.86.98.11.185 2.17 1 3.392.3 6.143 6.94.22 6.72.85.99.11.184 2.171 1.198 3.919.1 6.14 6.19.23 7.72.85.99.12.186 4.17 1 5.871.2 6.143 6.92.2 4.7.84.98.12.183 2.174 1 7.788 6.143 6.93.18 3.69.83.99.13.183 2.173 1.199 3.394 8.2 6.141 6.1.179.147.113.89.58.2.76.75.129 1.199 349 8.3 6.141 6.1.179.147.113.89.57.2.75.75.129 1.198 3.395 4.2 6.138 6.19.65.5.34.28.7.24.163.17.146.91 176.2 4.963 8.729.53.53 9 6.53.77.115.113.62.91 1.964.2 4.958 8.735.55.55.51 6.54.79.117.115.62.92 2.959 4.967 8.723.56.56.52 8.56.79.119.116.72.91 33. 4.963 8.727.54.55.51 7.54.78.117.115.69.9 3.91. 4.956 8.739.54.55.51 7.54.78.118.115.7.91 5.937.1 4.96 8.732.56.56.51 7.53.77.116.113.65.9 7.86.3 4.957 8.737.56.55.51 7.53.77.114.11.61.898 33 8.3 4.945 8.759.32.61.73.77.84.19.95.92.125.898 318 3.99 4.946 8.758.39.54.56.56.61.85.19.11.127.81 189.2 4.351 9.689.52.54.55.64.87.93.87.29.81 1.965 4.354 9.684 1.53.54.56.64.88.95.9 1.83 2.944.1 4.362 9.673 1.53.55.56.65.89.97.91 7.82 32.2 4.361 9.676 2.53.55.56.65.88.96.91 6.82 3.914.3 4.358 9.679 2.53.55.57.65.89.96.91 6.82 5.862.3 4.358 9.679 2.53.55.56.64.87.94.88.31.83 7.87. 4.368 9.665 3.55.56.57.65.86.93.85.12.799 3.389 8 4.342 9.76.3.2.28.33 2.68.7.68.88.8 3.383 4. 4.345 9.698.15.31.36.39 6.71.84.81.63.599 1.5. 2.918 11.631.34 5 8 8.57.75.73.69.56.599 1.975. 2.917 11.632.34 6 9 9.57.75.75.72.69.598 2.926. 2.915 11.636.34 5 9 9.57.75.76.73.74.599 3.372.1 2.919 11.629.32 4 8 8.55.73.75.71.71.598 3.922.1 2.916 11.634.33 5 8 8.56.73.75.71.71.599 5.826.3 2.921 11.626.33 5 8 8.56.74.74.69.57.599 7.77.1 2.919 11.629.32 4 8 8.55.73.71.66.36.599 311 8.1 2.918 11.633.26.9..2.12.34 2 3.89.6 369 3.99 2.929 11.617.3.12.2.22.3.5.59.58.73 51

52 Table 4. Static Pressure Coefficients of Afterbody Surface With Horizontal Tail in Mid Position and Vertical Tail in Aft Position (a) θ = at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 1.199 183.2 6.151 6.115.58.79.84.78.5.68.95.97.16.62.63 1.199 1.983. 6.151 6.117.6.8.85.79.51.69.96.98.16.63.66 1 2.938. 6.154 6.17.6.79.86.81.52.69.96.98.15.63.65 1.198 313. 6.15 6.118.61.79.86.81.53.7.97.99.17.64.67 1.199 3.97.1 6.152 6.113.62.8.86.82.53.7.96.99.16.64.67 1.199 5.894.3 6.151 6.115.62.79.86.83.55.71.97.1.17.64.68 1.198 7.81.1 6.15 6.118.63.8.87.84.55.71.97.1.18.65.69 1 33 8. 6.154 6.19 1 2 13.193.152.145.123.1.87.82.133 12 31 4. 6.158 6.93.135.154.15.138.18.118.13.123.129.113.145.899 18.2 4.958 8.769 1.29.22.15.6.7.5.19.28.12.91 1.989.1 4.971 8.747 4.33.24.16.5.8.5.2.29.2.99.93 2.939. 4.98 8.732 2.31.22.14.6.7.21.3.1.98.899 3.377. 4.96 8.767 1.32.23.16.5.9.6.19.27.11.9 3.932. 4.968 8.754.31.23.14.7.6.3.21.3.2.1.899 5.811.1 4.96 8.768 1.32.23.16.6.8.5.19.28.3.11.899 7.794.2 4.957 8.772 2.32.23.16.5.8.5.2.28.12.91 333 8.3 4.97 8.752.121.126.127.123.98.112.11.65 3.65.16.91 36 4.1 4.969 8.753.54.54.5 4.25.37.33.7.29.13.8 183.1 4.354 9.72.36.37.35.32.14.3.33.14.18.64.166.8 1.972. 4.357 9.716.36.38.35.32.13.3.33.14.17.63.166.8 2.946.1 4.355 9.718.37.39.35.33.14.31.34.14.18.65.168.81 3.397.1 4.361 9.71.38.39.36.33.14.31.34.15.18.65.168.81 3.914.1 4.36 9.711.37.39.36.33.13.31.32.14.18.64.166.82 5.871.3 4.368 9.7.36.38.35.32.12.3.32.14.18.64.166.82 7.776.1 4.365 9.74.35.38.34.31.11.3.32.14.17.61.161.8 35 8.3 4.358 9.717.14.17.12.96.72.94.97.77.82.136 46.8 35 4. 4.354 9.723.62.63.58.51.34.51.55.39 8.12 9.61 186.1 2.94 11.613.31.36.39.37.2.38 5.32 3.88.168.62 1.961.1 2.945 11.67.31.37.38.21.39 6.34 5.92.174.62 2.922.2 2.943 11.61.31.38 1.39.23 8.36 8.95.176.62 3.384.2 2.947 11.65.31.38.38.21 7.35 7.93.174.62 3.957.2 2.947 11.65.31.39 1.38.21 1 9.35 8.95.176.63 5.882.2 2.949 11.62.32.39 1.39.22 8.35 7.93.172.63 7.782.2 2.95 11.61.3.39 1.38.21 6.33 3.88.165.61 3.39 8 2.935 11.623.86.96.9.85.64.89.1.88.19.167 52.61 327 4. 2.94 11.615.54.64.61.53.37.58.68.58.77.13 11

Table 4. Continued (a) Concluded at values of x L of M NPR α, deg q, psi p, psi.869.883.898.912.927.941.951.963.974 1.199 183.2 6.151 6.115.124.143.16 7 68.312.356.5.183 1.199 1.983. 6.151 6.117.127.145.162 8 69.314.358.512 3 1 2.938. 6.154 6.17.127.145.163 8 69.315.36.513 34 1.198 313. 6.15 6.118.129.146.164 8 7.316.362.515 43 1.199 3.97.1 6.152 6.113.129.147.165 8 7.316.362.515 56 1.199 5.894.3 6.151 6.115.131.148.167 9 71.318.363.516 19 1.198 7.81.1 6.15 6.118.132.15.169 9 73.32.365.57.159 1 33 8. 6.154 6.19.163.194 21 67.335.394 33.57 8 12 31 4. 6.158 6.93.183 13 3 65.331.381 4.535 22.899 18.2 4.958 8.769.183 45.322 16.34.1 5.15 6.91 1.989.1 4.971 8.747.18 42.319 16.382.115.53.5.38.93 2.939. 4.98 8.732.178 4.317 15 1.126.56.1.31.899 3.377. 4.96 8.767.182 44.321 19 2.126.6.2.32.9 3.932. 4.968 8.754.181 43.32 18.399.126.59..32.899 5.811.1 4.96 8.768.181 44.321 18.371.111.51.9 2.899 7.794.2 4.957 8.772.182 45.32 13.39.87.33.26.56.91 333 8.3 4.97 8.752 42.312.381 54 61.78.27.12.91 36 4.1 4.969 8.753 13 8.347 49.341.14 7.9.16.8 183.1 4.354 9.72 37 87.32.316 5.156.134.23.79.8 1.972. 4.357 9.716 39 91.328.325 6.165.144.16.72.8 2.946.1 4.355 9.718 41 94.333.333 67.171.152.1.68.81 3.397.1 4.361 9.71 42 96.336.334 69.172.153.9.67.81 3.914.1 4.36 9.711 41 95.334.334 68.171.151.11.68.82 5.871.3 4.368 9.7 37 89.324.32 51.155.133.22.76.82 7.776.1 4.365 9.74 29 78.36 98 29.133.19.39.88.8 35 8.3 4.358 9.717.322.372.381.336 38.138.91.5.24.8 35 4. 4.354 9.723 81.331.351.329 46.149.121.5 5.61 186.1 2.94 11.613 8 31 43 46 23.17.17.6.87.62 1.961.1 2.945 11.67 13 38 51 56 34.183.185.2.75.62 2.922.2 2.943 11.61 15 41 54 61 4.189.191.26.69.62 3.384.2 2.947 11.65 14 4 55 62 4.189.192.26.69.62 3.957.2 2.947 11.65 16 42 56 64 41.189.19.25.69.63.63 5.882 7.782.2.2 2.949 2.95 11.62 11.61 11 3 36 27 48 37 55 42 31 15.178.159.175.153.12.6.81.96.61 3.39 8 2.935 11.623 86.36.34.32 56.187.165.23.52.61 327 4. 2.94 11.615 43 67 71 78 4.18.167.2.63 53

54 Table 4. Continued (b) θ = 45 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.941.951.963.974.997 1.199 183.2 6.151 6.115.56.8.32.59.91 31.371 81.194 1.199 1.983. 6.151 6.117.57.8.32.59.91 33 22.354 21.63 1 2.938. 6.154 6.17.57.5.8.31.57.9 34 45 21 36.78 1.198 313. 6.15 6.118.59.5.8.31.58.91 34 46 27 37.74 1.199 3.97.1 6.152 6.113.6.6.7.31.58.91 35 46 24 37.63 1.199 5.894.3 6.151 6.115.61.8.7.32.58.91 36 26.364 21.19 1.198 7.81.1 6.15 6.118.62.8.7.31.57.92 35.376 86.192.1 1 33 8. 6.154 6.19.177.85.87.13.114.18 96 46.31 88.8 12 31 4. 6.158 6.93.116 2 7.77.111.136 82.393.325 42.79.899 18.2 4.958 8.769.23.9.6.16.32.62.61.96 7.124.91 1.989.1 4.971 8.747.24.1.7.18.33.7.69.13.58.112.93 2.939. 4.98 8.732.1.22.9.6.18.33.78.76.111.63.112.899 3.377. 4.96 8.767.2.21.7.15.3.77.77.112.61.113.9 3.932. 4.968 8.754.3.23.9.6.18.33.77.76.111.61.117.899 5.811.1 4.96 8.768.3.23.9.5.17.32.68.67.12.53.13.899 7.794.2 4.957 8.772.7.26.9.6.17.33.54.51.84.35.141.91 333 8.3 4.97 8.752.78.69.15.119.11.78.83.83.18.62.1.91 36 4.1 4.969 8.753.8.2.25.34.21.3.8.83.116.7.15.8 183.1 4.354 9.72.2.8.9.14.7.63.37.63.6.137.8 1.972. 4.357 9.716.1.1.7.12.3.8.68 5.69.1.125.8 2.946.1 4.355 9.718.3.1.8.12.7.78.5.74.2.123.81 3.397.1 4.361 9.71.1.1.8.13.7.77.5.74.3.123.81 3.914.1 4.36 9.711..1.8.13.3.8.79.51.75.3.127.82 5.871.3 4.368 9.7.2.9.8.14.7.66.39.65.5.141.82 7.776.1 4.365 9.74..11.7.12.2.9 7.23.51.17.152.8 35 8.3 4.358 9.717.57 6.69.76.67.6.77.69.98.35.112.8 35 4. 4.354 9.723.9.1.24.31.24.16.72.6.97.37.116.61 186.1 2.94 11.613.1.7.11.15.1.1.61 1.34 3.133.62 1.961.1 2.945 11.67..6.11.16.1.2.72.51 4.33.17.62 2.922.2 2.943 11.61.1.6.14.17.12.78.58 9.3.12.62 3.384.2 2.947 11.65.1.5.13.18.12.3.78.58.51.27.14.62.63 3.957 5.882.2.2 2.947 2.949 11.65 11.62..1.6.7.13.14.18.18.13.12.3.3.79.65.58 8.51 2.28.33.19.132.63 7.782.2 2.95 11.61.2.7.12.19.12.1.51.35.3 4.148.61 3.39 8 2.935 11.623.36.29.51.58.54.53.85.68.77..1.61 327 4. 2.94 11.615.3.1.24.31.27.23.8.59.71.5.12

Table 4. Continued (c) θ = 9 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.951.963.974.986.997 1.199 183.2 6.151 6.115.61.12.3.65.1.149.184 81.187.1.34 1.199 1.983. 6.151 6.117.6.12.3.67.11.149.189.312.194.114.6 1 2.938. 6.154 6.17.6.12.29.66.1.149.19.327 1.121.7 1.198 313. 6.15 6.118.62.11.28.68.11.148.19.329 2.121.66 1.199 3.97.1 6.152 6.113.61.11.28.68.11.147.19.329 3.12.59 1.199 5.894.3 6.151 6.115.64.14.26.69.12.145.189.315.196.13.14 1.198 7.81.1 6.15 6.118.64.14.25.7.11.144.183 84.189.83.27 1 33 8. 6.154 6.19.97.6.3.75.99 72 39.326 1.12.77 12 31 4. 6.158 6.93 2.15.16.76.132.18.166 95 14.124.72.899 18.2 4.958 8.769.8.25.14.21 6 5.2.24.24.125.184.91 1.989.1 4.971 8.747.6.24.14.2 6 5.7.32.14.117.174.93 2.939. 4.98 8.732.5.24.15.2 6 4.12.39.11.114.165.899 3.377. 4.96 8.767.6.23.13.22 4 4.12.39.13.114.165.9 3.932. 4.968 8.754.7.25.16.19 7 6.11.38.13.116.168.899 5.811.1 4.96 8.768.7.24.15.2 6 7.6.3.2.125.188.899 7.794.2 4.957 8.772.9.25.16.19 7 7.5.12.36.141 1.91 333 8.3 4.97 8.752.51.57.88.184.62 54.11.35.1.12.152.91 36 4.1 4.969 8.753.1.19.7.11 41.12 1.7.19.156.8 183.1 4.354 9.72.6.11.2.38.27.197.7.9 9.145.187.8 1.972. 4.357 9.716.7.12..36.28.199.3.15 4.14.179.8 2.946.1 4.355 9.718.6.11.1.37.27.198..2 2.136.17.81 3.397.1 4.361 9.71.6.11.1.37.27.198.1.2 1.136.169.81 3.914.1 4.36 9.711.8.12..36.28.199.2.21 2.137.172.82 5.871.3 4.368 9.7.6.1.1.37.27.198.11 8.146.19.82 7.776.1 4.365 9.74.7.12..35.29.13.6.157 9.8 35 8.3 4.358 9.717.8.2.39.11.13 78.27.26.117.157.8 35 4. 4.354 9.723.9.5.7 7.22 28.3.27.22.122.158.61 186.1 2.94 11.613.8.7.35.25.19.15.1.7.152.181.62 1.961.1 2.945 11.67.9.7.34.25.189.9.1.63.144.167.62 2.922.2 2.943 11.61.7.5.5.35.23.19.5.15.6.139.156.62 3.384.2 2.947 11.65.7.5.5.35.23.19.5.17.58.138.156.62 3.957.2 2.947 11.65.6.5.36.22.19.3.15.59.139.159.63 5.882.2 2.949 11.62.7.5.5.34.24.191.7.7.64.148.178.63 7.782.2 2.95 11.61.7.5.3.32.25.192.14.5.74.158.196.61 3.39 8 2.935 11.623.2.2.9.55.13 76.3.29 4.129.148.61 327 4. 2.94 11.615.22.12.5.26.31 1..25 1.13.149 55

56 Table 4. Continued (d) θ = 135 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.869 1.199 183.2 6.151 6.115.71.84.84.72.8.18.81.86.97.123.161 1.199 1.983. 6.151 6.117.71.83.84.71.82.11.81.86.97.122.161 1 2.938. 6.154 6.17.7.83.84.7.8.11.81.86.97.122.162 1.198 313. 6.15 6.118.72.85.85.71.82.112.82.87.97.123.163 1.199 3.97.1 6.152 6.113.71.85.85.71.82.111.82.86.96.122.164 1.199 5.894.3 6.151 6.115.73.86.86.71.83.112.82.88.98.122.165 1.198 7.81.1 6.15 6.118.74.85.85.7.83.113.82.88.98.123.166 1 33 8. 6.154 6.19.144.1.54..37.66.2.28.37.13 8 12 31 4. 6.158 6.93.57.37..33.5.75 9 1.37.6.111.899 18.2 4.958 8.769.34 3.32.13.2.3 2.67.112.91 1.989.1 4.971 8.747 3.35 4.33.13.2.3 3.68.113.93 2.939. 4.98 8.732 1.34 1.32.12.3.29 2.67.114.899 3.377. 4.96 8.767.39.34 3.34.13.2.5.31 4.69.114.9 3.932. 4.968 8.754 1.34 3.33.12.3.29 2.67.113.899 5.811.1 4.96 8.768.34 3.34.13.3.5.31 3.68.112.899 7.794.2 4.957 8.772.34 3.34.13.3.29 1.66.18.91 333 8.3 4.97 8.752.71.94.125.135.13.63 2.3.67.91 36 4.1 4.969 8.753.51.56.7.65.38.12.12.28.34.55.94.8 183.1 4.354 9.72.32.39.53 4.28.15.19 6.65.93.8 1.972. 4.357 9.716.31.39.53 4.27.14.19.38 5.64.92.8 2.946.1 4.355 9.718.32.39.53 5.27.14.19.39 6.65.93.81 3.397.1 4.361 9.71.33.54 6.28.15.2 7.66.93.81 3.914.1 4.36 9.711.32.39.53 6.27.14.19.39 6.66.93.82 5.871.3 4.368 9.7.32.39.53 6.27.14.19.39 6.65.92.82 7.776.1 4.365 9.74.31.38.52 5.26.12.18.38 5.64.89.8 35 8.3 4.358 9.717.22 3.67.7 6.19.5.6..15.8 35 4. 4.354 9.723.18.3 8 5.22.1.1.14.19.39.68.61 186.1 2.94 11.613.25.35 9 1.26.16.19.34.35 9.65.62 1.961.1 2.945 11.67.24.35.5 3.28.17.19.35.35.5.66.62 2.922.2 2.943 11.61.24.36.5 4.28.17.2.36.37.51.68.62 3.384.2 2.947 11.65.25.36.5 5.29.17.21.36.38.52.68.62 3.957.2 2.947 11.65.26.37.51 6.29.18.22.37.39.53.69.63 5.882.2 2.949 11.62.26.37.51 6.29.17.21.37.39.53.67.63 7.782.2 2.95 11.61.26.35 9 6.27.15.19.35.36.51.65.61 3.39 8 2.935 11.623.3.18.38 3.18.6.15.13.21.7.11.61 327 4. 2.94 11.615..16.32.35.12.7.7.5.6.23.39

Table 4. Continued (d) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 1.199 183.2 6.151 6.115.154.134.167 2 11 68.335 43.143.56 1.199 1.983. 6.151 6.117.155.133.167 2 12 68.34 53.167.82 1 2.938. 6.154 6.17.157.134.167 2 12 69.345 6.181.1 1.198 313. 6.15 6.118.156.134.169 3 14 71.346 6.18.1 1.199 3.97.1 6.152 6.113.157.134.169 3 13 71.347 62.18.95 1.199 5.894.3 6.151 6.115.158.135.17 4 15 72.347 59.153.37 1.198 7.81.1 6.15 6.118.157.135.17 5 16 72.343 4.11.9 1 33 8. 6.154 6.19.7.15.153.173.165 25.333 56.196.117 12 31 4. 6.158 6.93.118.11.132.161.163 23 93 29.188.111.899 18.2 4.958 8.769.133.153.13.96 1.75.13.83.136.159.91 1.989.1 4.971 8.747.136.158.135.11 6.82.7.76.126.146.93 2.939. 4.98 8.732.137.161.138.14 8.85.3.72.123.14.899 3.377. 4.96 8.767.136.159.136.13 8.86.73.123.141.9 3.932. 4.968 8.754.136.158.135.11 7.84.6.75.126.147.899 5.811.1 4.96 8.768.134.154.131.97 1.76.15.87.143.173.899 7.794.2 4.957 8.772.129.147.122.88.32.62.3.14.163.198.91 333 8.3 4.97 8.752.84.13.96.82 1.81.7.74.119.132.91 36 4.1 4.969 8.753.115.137.122.98.5.74.7.71.114.135.8 183.1 4.354 9.72.99.17.93.75.32.69.14.82.135.158.8 1.972. 4.357 9.716.98.17.94.77.34.73.8.76.127.148.8 2.946.1 4.355 9.718.1.19.95.79.36.76.6.73.123.14.81 3.397.1 4.361 9.71.11.19.96.79.36.76.6.73.123.14.81 3.914.1 4.36 9.711.1.19.95.79.35.76.7.75.125.144.82 5.871.3 4.368 9.7.99.18.93.75.31.69.16.86.139.168.82 7.776.1 4.365 9.74.95.13.87.69.23.57.29.12.158.193.8 35 8.3 4.358 9.717.53.69.64.59.26.69.11.75.118.132.8 35 4. 4.354 9.723.78.93.82.72.35.68.9.71.113.133.61 186.1 2.94 11.613.67.71.62.52.18.53.21.83.131.15.62 1.961.1 2.945 11.67.68.73.64.55.22.59.14.74.118.129.62 2.922.2 2.943 11.61.7.76.67.58.25.62.1.7.113.12.62 3.384.2 2.947 11.65.69.75.67.58.25.63.11.71.114.122.62 3.957.2 2.947 11.65.71.77.67.59.24.63.11.71.115.126.63 5.882.2 2.949 11.62.7.75.66.56.21.58.19.82.129.153.63 7.782.2 2.95 11.61.66.73.61.51.15 8.33.97.147.179.61 3.39 8 2.935 11.623.19.35.31.34.8.5.25.78.111.118.61 327 4. 2.94 11.615 5.59.51 8.19.53.2.73.14.118 57

58 Table 4. Continued (e) θ = 18 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 1.199 183.2 6.151 6.115.3.61.88.92.89.9.111.131.142.149.165 1.199 1.983. 6.151 6.117.31.6.88.93.89.9.111.131.142.149.166 1 2.938. 6.154 6.17.3.59.88.92.88.89.112.131.141.149.166 1.198 313. 6.15 6.118.32.6.89.94.89.9.113.131.141.15.168 1.199 3.97.1 6.152 6.113.31.58.88.93.89.9.113.13.14.149.168 1.199 5.894.3 6.151 6.115.31.57.88.93.89.91.115.131.141.15.169 1.198 7.81.1 6.15 6.118.31.56.87.93.88.9.114.131.14.151.17 1 33 8. 6.154 6.19.183.137.12.79.52.2.3.63.69.65.65 12 31 4. 6.158 6.93.74.5.3.21.9.13.54.86.18.12.135.899 18.2 4.958 8.769.5.54.5.34 2.55.61.7.84.96.91 1.989.1 4.971 8.747.53.56.52 1.34 3.55.61.71.84.97.93 2.939. 4.98 8.732.52.55.51.33 2.54.61.7.85.98.899 3.377. 4.96 8.767.5.55.52 1.35 3.55.63.72.86.98.9 3.932. 4.968 8.754.51.55.51.33 2.53.6.7.84.96.899 5.811.1 4.96 8.768.5.55.52 1.35 3.54.62.71.84.96.899 7.794.2 4.957 8.772.51.56.51.34 2.53.6.69.81.92.91 333 8.3 4.97 8.752.39.76.89.86.82.87.87.79.72.72.72.91 36 4.1 4.969 8.753 5.65.65.55.5.56.62.65.69.77.84.8 183.1 4.354 9.72.39.55.56 9 4.53.64.67.72.78.83.8 1.972. 4.357 9.716.39.55.56 8 3.52.63.66.71.77.83.8 2.946.1 4.355 9.718.39.55.56 8 4.53.63.67.72.78.84.81 3.397.1 4.361 9.71.56.57 9 5.54.64.68.73.79.84.81 3.914.1 4.36 9.711.39.55.56 8 4.53.63.67.72.79.83.82 5.871.3 4.368 9.7.39.56.57 9 5.53.62.67.72.78.83.82 7.776.1 4.365 9.74.38.55.55 8 4.52.61.66.71.76.8.8 35 8.3 4.358 9.717.1.3.36.32.32.39 2 2 3 3 5.8 35 4. 4.354 9.723.13.38.33.32.39 5.5.55.58.61.61 186.1 2.94 11.613.33 7 8 2.36 6.56.56.6.61.62.62 1.961.1 2.945 11.67.33 8 9 2.37 7.56.58.62.62.64.62 2.922.2 2.943 11.61.34.5.5 4.39 8.57.59.63.64.65.62 3.384.2 2.947 11.65.34.5.5 4.39 8.57.59.63.65.65.62 3.957.2 2.947 11.65.35.51.51 5 9.58.6.64.65.65.63 5.882.2 2.949 11.62.34.52.51 4 9.57.6.64.63.64.63 7.782.2 2.95 11.61.32.5 9 3.39 8.55.58.62.62.62.61 3.39 8 2.935 11.623.23.5.7.2.3.9.14.18.21.19.17.61 327 4. 2.94 11.615.1.25.24.17.18.25.3.37 2.39.38

Table 4. Continued (e) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.974.986 1.199 183.2 6.151 6.115.183.184.194 6 31 48 86.143 1.199 1.983. 6.151 6.117.181.183.194 7 3 48.32.188 1 2.938. 6.154 6.17.18.183.195 8 32 5.37 21 1.198 313. 6.15 6.118.181.183.195 9 31 49.37 23 1.199 3.97.1 6.152 6.113.18.183.195 9 31 5.38 19 1.199 5.894.3 6.151 6.115.18.184.196 11 33 52.36.178 1.198 7.81.1 6.15 6.118.18.185.197 12 32 51 85.14 1 33 8. 6.154 6.19.58.67.15.148 5 13.333 64 12 31 4. 6.158 6.93.144.141.153.159.187 2 8 49.899 18.2 4.958 8.769.117.121.125.113.126.151.95.144.91 1.989.1 4.971 8.747.121.126.131.119.134.162.85.134.93 2.939. 4.98 8.732.123.128.133.121.137.166.82.13.899 3.377. 4.96 8.767.122.127.132.121.138.167.81.13.9 3.932. 4.968 8.754.122.126.131.119.135.165.84.133.899 5.811.1 4.96 8.768.12.123.127.114.128.153.96.15.899 7.794.2 4.957 8.772.115.116.118.14.115.133.115.17.91 333 8.3 4.97 8.752.87.9.15.16.145 11.86.132.91 36 4.1 4.969 8.753.19.113.123.117.144.188.8.124.8 183.1 4.354 9.72.92.91.97.94.115.139.87.138.8 1.972. 4.357 9.716.93.92.98.97.12.146.8.129.8 2.946.1 4.355 9.718.94.93.11.99.123.15.76.125.81 3.397.1 4.361 9.71.95.94.11.99.123.15.76.125.81 3.914.1 4.36 9.711.95.93.1.98.123.149.78.127.82 5.871.3 4.368 9.7.93.92.98.94.117.139.89.143.82 7.776.1 4.365 9.74.9.87.91.86.15.123.16.163.8 35 8.3 4.358 9.717.63.64.78.85.128.173.78.127.8 35 4. 4.354 9.723.81.8.91.93.128.163.74.12.61 186.1 2.94 11.613.68.65.73.73.97.116.8.13.62 1.961.1 2.945 11.67.71.68.78.78.14.125.69.116.62 2.922.2 2.943 11.61.73.71.79.81.17.129.64.11.62 3.384.2 2.947 11.65.73.71.79.81.17.129.65.111.62 3.957.2 2.947 11.65.75.72.8.8.18.129.65.112.63 5.882.2 2.949 11.62.74.7.77.76.13.122.77.129.63 7.782.2 2.95 11.61.73.67.73.71.95.19.93.15.61 3.39 8 2.935 11.623 2.39.53.59.15.139.69.115.61 327 4. 2.94 11.615.63.57.67.69.19.136.64.19 59

6 Table 4. Continued (f) θ = 225 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 1.199 183.2 6.151 6.115 9 13.189.145 11.322 43 14.97 1 1.199 1.983. 6.151 6.117 7 12.189.145 11.323 43 86.138.76 1 2.938. 6.154 6.17 6 12.189.147 14.325 43.352.155.93 1.198 313. 6.15 6.118 6 13.19.144 12.325 44.355.153.92 1.199 3.97.1 6.152 6.113 5 13.189.145 13.326 44.337.147.88 1.199 5.894.3 6.151 6.115 5 14.191.146 15.328 45 51.115.57 1.198 7.81.1 6.15 6.118 6 15.191.145 15.329 45.166.74.2 1 33 8. 6.154 6.19.74.67.54.54.178.3 46 33 33.133 12 31 4. 6.158 6.93.163.163.139.15.184 97 24 33.185.149.899 18.2 4.958 8.769.125.17.86.9.169 3 2.19.15.177.91 1.989.1 4.971 8.747.131.112.92.97.179 16.33.99.142.167.93 2.939. 4.98 8.732.133.114.94.1.185 26.26.94.139.162.899 3.377. 4.96 8.767.133.114.94.1.186 28.25.94.14.162.9 3.932. 4.968 8.754.131.113.93.99.183 26.27.97.142.166.899 5.811.1 4.96 8.768.13.11.89.94.173 8.37.16.15.181.899 7.794.2 4.957 8.772.124.12.79.81.152.177.56.12.162.199.91 333 8.3 4.97 8.752.18.88.74.94 14.337.15.13.149.166.91 36 4.1 4.969 8.753.125.15.88.11 3 77.17.92.134.154.8 183.1 4.354 9.72.13.84.68.79.163 5.28.11.154.18.8 1.972. 4.357 9.716.15.86.71.83.171 18.19.12.147.17.8 2.946.1 4.355 9.718.16.88.73.87.176 25.13.98.144.164.81 3.397.1 4.361 9.71.17.89.74.87.176 24.13.99.143.166.81 3.914.1 4.36 9.711.16.88.72.86.174 23.14.99.145.168.82 5.871.3 4.368 9.7.15.86.69.8.163 4.26.19.154.184.82 7.776.1 4.365 9.74.11.79.61.69.144.177 5.122.166 4.8 35 8.3 4.358 9.717.84.66.56.83 88.2.1.15.169.8 35 4. 4.354 9.723.99.79.66.87.189 57.2.91.136.159.61 186.1 2.94 11.613.82.66.54.67.149.189.14.14.152.174.62 1.961.1 2.945 11.67.86.69.59.73.159 3.3.92.139.155.62 2.922.2 2.943 11.61.89.72.61.77.164 7.2.88.134.148.62 3.384.2 2.947 11.65.89.73.62.78.163 7.3.87.135.149.62 3.957.2 2.947 11.65.91.74.63.78.163 6.1.88.136.154.63 5.882.2 2.949 11.62.9.71.59.72.153.193.11.99.148.177.63 7.782.2 2.95 11.61.87.67.53.65.14.173.26.114.165 1.61 3.39 8 2.935 11.623.68 8 3.71.174 4.17.84.136.154.61 327 4. 2.94 11.615.83.62.54.77.169 25.13.79.127.148

Table 4. Continued (g) θ = 24 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986 1.199 183.2 6.151 6.115 21.164.128.166 24 28 22.133 1.199 1.983. 6.151 6.117 22.164.127.166 24.525 47.17 1 2.938. 6.154 6.17 23.164.129.168 26.547 66.172 1.198 313. 6.15 6.118 26.164.127.166 25.548 67.169 1.199 3.97.1 6.152 6.113 26.164.128.168 26.547 62.163 1.199 5.894.3 6.151 6.115 27.165.129.169 26.543 24.123 1.198 7.81.1 6.15 6.118 29.165.129.168 27 61.177.81 1 33 8. 6.154 6.19.76.37.34.115 5.559.35 8 12 31 4. 6.158 6.93.172.114.85.136 5.332 47 26.899 18.2 4.958 8.769.11.75.71.114 15.55.94.142.91 1.989.1 4.971 8.747.116.82.79.126 29 4.83.136.93 2.939. 4.98 8.732.118.85.82.132 42.37.78.133.899 3.377. 4.96 8.767.117.85.83.134 47.38.8.133.9 3.932. 4.968 8.754.115.83.81.13 43.82.136.899 5.811.1 4.96 8.768.112.79.76.12 28.51.93.142.899 7.794.2 4.957 8.772.12.69.61.97.19.69.14.15.91 333 8.3 4.97 8.752.92.69.81.163.368.1.148.91 36 4.1 4.969 8.753.17.8.84.148.34.37.81.128.8 183.1 4.354 9.72.88.59.62.115 48.53.17.151.8 1.972. 4.357 9.716.9.62.67.124 66 4.11.147.8 2.946.1 4.355 9.718.92.65.71.13 78.38.99.145.81 3.397.1 4.361 9.71.92.65.71.13 77.39.1.145.81 3.914.1 4.36 9.711.9.64.7.128 75.99.145.82 5.871.3 4.368 9.7.88.61.63.115 51.52.17.151.82 7.776.1 4.365 9.74.8.52.51.94 14.69.116.158.8 35 8.3 4.358 9.717.7.52.69.156.37.33.11.157.8 35 4. 4.354 9.723.81.6.71.141.324.34.94.139.61 186.1 2.94 11.613.68 5.53.19 57 2.118.162.62 1.961.1 2.945 11.67.71.5.6.12 76.29.18.151.62 2.922.2 2.943 11.61.73.53.63.125 84.24.14.147.62 3.384.2 2.947 11.65.74.54.64.126 83.25.14.146.62 3.957.2 2.947 11.65.73.54.65.125 83.26.16.148.63 5.882.2 2.949 11.62.69.5.58.115 65.39.115.158.63 7.782.2 2.95 11.61.63 4 9.99 39.56.128.17.61 3.39 8 2.935 11.623 6.39.58.139.342.18.19.154.61 327 4. 2.94 11.615.57 8.63.132.321.21.12.142 61

62 Table 4. Continued (h) θ = 255 at values of x L of M NPR α, deg q, psi p, psi.941.963.974.986.997 1.199 183.2 6.151 6.115.173 53 3.188.115 1.199 1.983. 6.151 6.117.173 81 62 9.139 1 2.938. 6.154 6.17.176.32 85 23.155 1.198 313. 6.15 6.118.174.34 87 24.155 1.199 3.97.1 6.152 6.113.175.31 87 27.158 1.199 5.894.3 6.151 6.115.177 95 75 9.134 1.198 7.81.1 6.15 6.118.177 73 42.171.89 1 33 8. 6.154 6.19.118 89 92 67 18 12 31 4. 6.158 6.93.144.352 3.171.122.899 18.2 4.958 8.769.87.54.93.136.176.91 1.989.1 4.971 8.747.1 4.91.132.169.93 2.939. 4.98 8.732.18.39.89.13.164.899 3.377. 4.96 8.767.19.39.88.13.165.9 3.932. 4.968 8.754.16.89.131.166.899 5.811.1 4.96 8.768.94 9.92.136.176.899 7.794.2 4.957 8.772.69.63.1.142.186.91 333 8.3 4.97 8.752.147.34.91.14.172.91 36 4.1 4.969 8.753.123.33.77.118.152.8 183.1 4.354 9.72.94.51.95.145.182.8 1.972. 4.357 9.716.15 3.92.141.176.8 2.946.1 4.355 9.718.113.9.14.173.81 3.397.1 4.361 9.71.111.38.89.139.172.81 3.914.1 4.36 9.711.19.9.14.173.82 5.871.3 4.368 9.7.93 6.91.142.182.82 7.776.1 4.365 9.74.69.62.11.149.192.8 35 8.3 4.358 9.717.146.11.15.179.8 35 4. 4.354 9.723.124.38.9.132.162.61 186.1 2.94 11.613.98.58.114.159.183.62 1.961.1 2.945 11.67.111 7.15.149.165.62 2.922.2 2.943 11.61.116 3.13.144.161.62 3.384.2 2.947 11.65.116 3.13.145.161.62 3.957.2 2.947 11.65.115 4.13.144.163.63 5.882.2 2.949 11.62.14.55.112.154.18.63 7.782.2 2.95 11.61.86.7.122.165.196.61 3.39 8 2.935 11.623.135 4.115.152.164.61 327 4. 2.94 11.615.123 2.17.14.154

Table 4. Continued (i) θ = 27 at values of x L of M NPR α, deg q, psi p, psi.951.963.974.986 1.199 183.2 6.151 6.115.345.185 18 5 1.199 1.983. 6.151 6.117.372 2 54 3 1 2.938. 6.154 6.17.379 48 8 46 1.198 313. 6.15 6.118.38 49 82 47 1.199 3.97.1 6.152 6.113.38 45 8 48 1.199 5.894.3 6.151 6.115.379 33 67 36 1.198 7.81.1 6.15 6.118.358 35 3 1 33 8. 6.154 6.19.373 27 73 76 12 31 4. 6.158 6.93.386 3.197.18.899 18.2 4.958 8.769.52.93.134.91 1.989.1 4.971 8.747.2 2.89.129.93 2.939. 4.98 8.732.31.37.88.127.899 3.377. 4.96 8.767.31.36.87.127.9 3.932. 4.968 8.754.3.38.88.128.899 5.811.1 4.96 8.768.12 6.91.133.899 7.794.2 4.957 8.772.14.6.98.14.91 333 8.3 4.97 8.752.62.29.92.136.91 36 4.1 4.969 8.753.37.27.75.115.8 183.1 4.354 9.72.23 6.95.143.8 1.972. 4.357 9.716.37.38.91.141.8 2.946.1 4.355 9.718 6.34.89.139.81 3.397.1 4.361 9.71 5.32.87.138.81 3.914.1 4.36 9.711 6.35.9.139.82 5.871.3 4.368 9.7.19.39.89.141.82 7.776.1 4.365 9.74.7.55.1.147.8 35 8.3 4.358 9.717.85.33.11.151.8 35 4. 4.354 9.723.6.3.88.131.61 186.1 2.94 11.613.6.55.116.159.62 1.961.1 2.945 11.67.75 3.18.15.62 2.922.2 2.943 11.61.82.39.15.147.62 3.384.2 2.947 11.65.83.39.15.147.62 3.957.2 2.947 11.65.82.39.14.148.63 5.882.2 2.949 11.62.68 9.114.156.63 7.782.2 2.95 11.61 3.63.123.166.61 3.39 8 2.935 11.623.18.35.116.155.61 327 4. 2.94 11.615.91.33.16.143 63

64 Table 4. Continued (j) θ = 285 at values of x L of M NPR α, deg q, psi p, psi.927.941.951.963.974.986.997 1.199 183.2 6.151 6.115.152 29.57 6.181.143.65 1.199 1.983. 6.151 6.117.153 31.51.327 24.169.88 1 2.938. 6.154 6.17.154 31.51.379 51.185.1 1.198 313. 6.15 6.118.155 32.511.378 54.187.98 1.199 3.97.1 6.152 6.113.155 32.511.372 51.187.93 1.199 5.894.3 6.151 6.115.156 34.511.347 28.163.54 1.198 7.81.1 6.15 6.118.157 35.511 78.184.129.2 1 33 8. 6.154 6.19 2 63.52.36 42 13.145 12 31 4. 6.158 6.93 18 84 34 19 46 53 11.899 18.2 4.958 8.769.16.94.13.77.136.186.91 1.989.1 4.971 8.747.183.11.17.27.65.131.181.93 2.939. 4.98 8.732.199.124.25.17.59.13.179.899 3.377. 4.96 8.767.197.123.27.18.6.129.179.9 3.932. 4.968 8.754.196.122.27.22.64.131.179.899 5.811.1 4.96 8.768.175.15.22.34.76.135.181.899 7.794.2 4.957 8.772.134.69.1.53.9.144.189.91 333 8.3 4.97 8.752.187.147.117.3.89.14.164.91 36 4.1 4.969 8.753.185.114.16.63.123.163.8 183.1 4.354 9.72.137.12.64 4.91.143.191.8 1.972. 4.357 9.716.149.134.78.33.86.141.185.8 2.946.1 4.355 9.718.157.146.89.29.83.14.184.81 3.397.1 4.361 9.71.157.144.89.28.84.139.183.81 3.914.1 4.36 9.711.155.142.85.29.84.14.183.82 5.871.3 4.368 9.7.137.119.68 2.92.143.186.82 7.776.1 4.365 9.74.112.86.34.55.1.15.194.8 35 8.3 4.358 9.717.166.173.152.33.12.153.18.8 35 4. 4.354 9.723.151.134.78.18.76.136.174.61 186.1 2.94 11.613.13.14.124.5.18.157.19.62 1.961.1 2.945 11.67.141.154.143 1.1.147.176.62 2.922.2 2.943 11.61.146.161.149.37.97.144.172.62 3.384.2 2.947 11.65.147.161.149.35.97.144.171.62 3.957.2 2.947 11.65.148.161.149.37.99.146.172.63 5.882.2 2.949 11.62.135.144.13 4.15.155.184.63 7.782.2 2.95 11.61.118.122.12.59.116.166.196.61 3.39 8 2.935 11.623.168.184.185.31.19.157.173.61 327 4. 2.94 11.615.149.154.139.28.95.145.165

Table 4. Continued (k) θ = 3 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.997 1.199 183.2 6.151 6.115.163.168.159 7 6 1.181.131.34 1.199 1.983. 6.151 6.117.164.169.161 1 49 45 3.151.55 1 2.938. 6.154 6.17.165.169.162 1 8 7 17.163.68 1.198 313. 6.15 6.118.166.17.164 11 8 7 19.163.64 1.199 3.97.1 6.152 6.113.166.17.164 11 73 71 23.163.53 1.199 5.894.3 6.151 6.115.167.17.165 13 59 58 7.146.7 1.198 7.81.1 6.15 6.118.169.171.167 14 26 21.168.12.23 1 33 8. 6.154 6.19 33 52 13 45 5 72 62 13.75 12 31 4. 6.158 6.93 3 36 24 69.36 18.173.125.67.899 18.2 4.958 8.769.332 81 4.132.68.11.135.171.124.91 1.989.1 4.971 8.747.334 94 28.151.58.98.131.166.111.93 2.939. 4.98 8.732.334.31 46.167.53.95.127.161.111.899 3.377. 4.96 8.767.338.33 43.165.53.93.126.161.112.9 3.932. 4.968 8.754.337.31 42.164.54.94.127.163.115.899 5.811.1 4.96 8.768.335 9 19.145.61.96.132.17.128.899 7.794.2 4.957 8.772.325 64.177.19.74.13.139.18.139.91 333 8.3 4.97 8.752.339 21.159.54.81.14.134.96.91 36 4.1 4.969 8.753.357.38 27.149 4.79.19.148.11.8 183.1 4.354 9.72 79 3.16.153.57.1.143.182.133.8 1.972. 4.357 9.716 88 12.17.166.5.96.138.178.121.8 2.946.1 4.355 9.718 94 2.179.176 6.93.136.175.119.81 3.397.1 4.361 9.71 96 21.178.174 4.92.136.174.119.81 3.914.1 4.36 9.711 95 2.176.172 5.92.135.175.122.82 5.871.3 4.368 9.7 82 6.16.152.53.94.138.181.135.82 7.776.1 4.365 9.74 61.184.136.123.69.13.144.19.147.8 35 8.3 4.358 9.717.339 36.182.194 5.11.135.163.15.8 35 4. 4.354 9.723.32 22.169.161.88.123.165.18.61 186.1 2.94 11.613 11.16.143.157.56.115.153.184.13.62 1.961.1 2.945 11.67 2.171.155.172 3.15.142.169.12.62 2.922.2 2.943 11.61 23.175.159.178.38.11.138.163.98.62 3.384.2 2.947 11.65 24.175.16.178.36.11.137.164.99.62 3.957.2 2.947 11.65 25.177.16.178.38.11.137.165.14.63 5.882.2 2.949 11.62 16.168.148.163.51.11.145.182.125.63 7.782.2 2.95 11.61 4.154.132.142.69.12.156.198.141.61 3.39 8 2.935 11.623 69 7.178 3.33.12.133.163.88.61 327 4. 2.94 11.615 38.187.159.172.3.92.123.161.89 65

66 Table 4. Continued (l) θ = 315 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 1.199 183.2 6.151 6.115.99.125.176.168 46.381.526 3.141.113 1.199 1.983. 6.151 6.117.1.125.177.169 47.382.532 67.166.135 1 2.938. 6.154 6.17.11.124.177.169 47.382.532.31.185.148 1.198 313. 6.15 6.118.12.124.177.169 47.383.533.315.188.15 1.199 3.97.1 6.152 6.113.11.123.177.168 47.383.534.315.188.151 1.199 5.894.3 6.151 6.115.12.122.177.169 48.384.534 56.158.129 1.198 7.81.1 6.15 6.118.14.123.178.17 51.384.527.131.17 1 33 8. 6.154 6.19.173.191 54 41 99 32.568 62 4.185 12 31 4. 6.158 6.93.168.195 42 36.34 32 48 53 16.192.899 18.2 4.958 8.769 49.32.313 5.161.18.67.12.136.172.91 1.989.1 4.971 8.747 48.33.322 78.18.115.58.93.129.166.93 2.939. 4.98 8.732 45.32.327 97.196.125.51.87.126.163.899 3.377. 4.96 8.767 5.38.33 95.195.127.51.88.126.162.9 3.932. 4.968 8.754 49.36.329 94.194.125.52.89.127.163.899 5.811.1 4.96 8.768 5.36.321 69.175.115.62.98.134.168.899 7.794.2 4.957 8.772 49.31 99 23.142.91.78.11.145.178.91 333 8.3 4.97 8.752.315.367.386 63.174.163 1.8.17.137.91 36 4.1 4.969 8.753 8.334.341 77.176.111 4.81.117.15.8 183.1 4.354 9.72 66 67 22.186.181.166 8.19.142.18.8 1.972. 4.357 9.716 72 75 31.196.192.181.39.13.137.174.8 2.946.1 4.355 9.718 78 82 38 4 1.19.33.1.134.17.81 3.397.1 4.361 9.71 79 85 4 4.19.33.99.134.169.81 3.914.1 4.36 9.711 79 83 39 3.199.189.34.1.135.17.82 5.871.3 4.368 9.7 71 73 26.188.182.169 6.17.142.177.82 7.776.1 4.365 9.74 55 54 5.166.158.139.64.117.151.188.8 35 8.3 4.358 9.717.354.336 56 8 16 29.23.11.134.161.8 35 4. 4.354 9.723.36.3 41.199.189.166.29.89.127.162.61 186.1 2.94 11.613 3.198.17.164.177.188.23.11.145.177.62 1.961.1 2.945 11.67 11 6.18.174.191 4.1.1.133.162.62 2.922.2 2.943 11.61 14 11.185.179.196 11.95.13.157.62 3.384.2 2.947 11.65 15 13.185.18.198 12.94.129.156.62 3.957.2 2.947 11.65 16 15.187.181.198 11.3.95.131.159.63 5.882.2 2.949 11.62 9 8.178.17.185.195.18.16.144.175.63 7.782.2 2.95 11.61 1.197.166.155.167.171.35.119.157.191.61 3.39 8 2.935 11.623 76 69 23 8 28 49.7.93.138.163.61 327 4. 2.94 11.615 39 38.188.198.195.5.88.128.157

Table 4. Continued (m) Top interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.898.941 1.199 183.2 6.151 6.115 6 3.153 38 1.199 1.983. 6.151 6.117 8 5.156 39 1 2.938. 6.154 6.17 9 4.156 39 1.198 313. 6.15 6.118.5 5.158 39 1.199 3.97.1 6.152 6.113.51 5.157 39 1.199 5.894.3 6.151 6.115.52 4.159 4 1.198 7.81.1 6.15 6.118.53 3.16 4 1 33 8. 6.154 6.19.179.168 22 62 12 31 4. 6.158 6.93.125.124 22 85.899 18.2 4.958 8.769.53.33.317.55.91 1.989.1 4.971 8.747.58.36.32.7.93 2.939. 4.98 8.732.54.32.32.82.899 3.377. 4.96 8.767.53.33.324.82.9 3.932. 4.968 8.754.53.33.322.82.899 5.811.1 4.96 8.768.53.34.32.65.899 7.794.2 4.957 8.772.53.34.311.32.91 333 8.3 4.97 8.752.112.93.384.119.91 36 4.1 4.969 8.753.59 9.344.81.8 183.1 4.354 9.72 5.38 67.87.8 1.972. 4.357 9.716 7.38 76.12.8 2.946.1 4.355 9.718 8.39 83.113.81 3.397.1 4.361 9.71 9 1 84.111.81 3.914.1 4.36 9.711 8.39 83.19.82 5.871.3 4.368 9.7 5.38 7.85.82 7.776.1 4.365 9.74 4.38 5.54.8 35 8.3 4.358 9.717.99.86.324.143.8 35 4. 4.354 9.723.66.6 91.17.61 186.1 2.94 11.613 3.38 4.114.62 1.961.1 2.945 11.67 2.38 12.13.62 2.922.2 2.943 11.61 3.38 16.137.62 3.384.2 2.947 11.65 3.39 16.138.62 3.957.2 2.947 11.65 2 1 18.137.63 5.882.2 2.949 11.62 2 8.121.63 7.782.2 2.95 11.61 2.39.196.98.61 3.39 8 2.935 11.623.82.8 6.157.61 327 4. 2.94 11.615.56.56 29.134 67

68 Table 4. Concluded (n) Bottom interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.869.883.941 1.199 183.2 6.151 6.115.31.55.79.93.14.15.196 15.181 1.199 1.983. 6.151 6.117.3.54.78.92.14.15.195 14.182 1 2.938. 6.154 6.17.3.53.77.91.13.16.194 14.183 1.198 313. 6.15 6.118.31.54.78.92.16.17.195 15.182 1.199 3.97.1 6.152 6.113.28.52.77.91.15.17.195 14.182 1.199 5.894.3 6.151 6.115.27.51.77.9.15.19.195 15.184 1.198 7.81.1 6.15 6.118.25 9.76.89.15.18.195 16.183 1 33 8. 6.154 6.19.179.146.113.89.58.21.79.79.128 12 31 4. 6.158 6.93.65.5.35.31.12.17.16.169.155.899 18.2 4.958 8.769.54.56.52 9.55.79.12.121.74.91 1.989.1 4.971 8.747.58.58.53 9.56.79.124.126.88.93 2.939. 4.98 8.732.58.58.53 9.55.78.125.128.96.899 3.377. 4.96 8.767.56.58.54.51.57.8.126.128.98.9 3.932. 4.968 8.754.57.57.53 8.54.77.124.126.95.899 5.811.1 4.96 8.768.57.59.55.5.56.78.123.125.84.899 7.794.2 4.957 8.772.57.57.53 9.54.76.118.118.57.91 333 8.3 4.97 8.752.38.69.83.87.94.119.11.11.139.91 36 4.1 4.969 8.753.5.64.66.63.68.91.115.118.112.8 183.1 4.354 9.72 3.55.57.57.66.89.11.1.86.8 1.972. 4.357 9.716 3.54.57.57.65.89.12.11.98.8 2.946.1 4.355 9.718 3.55.57.57.66.89.13.13.17.81 3.397.1 4.361 9.71 4.56.58.59.67.9.14.13.15.81 3.914.1 4.36 9.711 3.56.57.58.66.88.13.12.13.82 5.871.3 4.368 9.7 4.56.58.59.66.89.13.11.87.82 7.776.1 4.365 9.74 4.56.58.58.66.88.99.96.61.8 35 8.3 4.358 9.717.1.25.33.38 6.71.76.78.143.8 35 4. 4.354 9.723.19.37 1 4.51.74.91.92.117.61 186.1 2.94 11.613.35 8 9.53.61.81.8.8.94.62 1.961.1 2.945 11.67.36 9.51.54.62.82.84.83.18.62 2.922.2 2.943 11.61.37.5.52.55.63.83.86.85.113.62 3.384.2 2.947 11.65.38.51.53.55.64.83.86.85.114.62 3.957.2 2.947 11.65.39.52.53.56.64.83.87.86.114.63 5.882.2 2.949 11.62.39.52.54.56.63.83.86.84.11.63 7.782.2 2.95 11.61.38.51.53.55.62.81.83.8.82.61 3.39 8 2.935 11.623.16.1.7.13.18.39.55.58.137.61 327 4. 2.94 11.615.9.25.28.33.36.55.72.74.122

Table 5. Static Pressure Coefficients of Afterbody Surface With Horizontal Tail in Aft Position and Vertical Tail in Forward Position (a) θ = at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 12 177.3 6.124 6.56 9.52 7.59.68.3.29.75.124.179 1.199 1.939.1 6.119 6.77.5.52 7.58.68.39.2.3.76.127.182 1 2.923.2 6.12 6.72.51.53 6.58.66.38.2.3.76.126.182 11 31.3 6.122 6.62.51.52 6.56.65.38.2.3.76.125.182 12 3.914.2 6.123 6.57.51.52 5.53.63.36.1.31.76.125.182 11 5.875.3 6.122 6.61.52.5 6.55.63.37.2.3.76.125.183 11 7.816.2 6.123 6.62.53.51 6.54.63.36.1.31.76.125.183 1 37 8 6.118 6.74.195 2.127.132.154.176.188 12 45 75.33 12 3.378 4.3 6.124 6.51.131.136.55.6.62.89.118.141.172 16 73.92 1.513. 4.946 8.689.23.58 2.19.68.164 52.312.388 63 49.92 1.951.1 4.949 8.684.2.57 2.18.67.164 51.312.387 62 54.9 2.937.3 4.934 8.711.23.58 1.21.69.167 55.317.392 68 5.898 3.375.2 4.925 8.724.19.53.37.25.74.171 59.32.396 71 46.9 3.913.1 4.935 8.77.21.57 1.2.69.167 55.315.391 67 48.9 5.836.3 4.934 8.78.2.56.21.7.168 56.317.392 67 44.9 7.817 4.938 8.74.22.57 1.2.68.166 54.315.391 66 24.9 331 8.8 4.935 8.78 3.2 5.115.165 68.365 3.5.575.622.92 3.384 3.98 4.945 8.69.9.32.5.6.11 1.3.361 33.59.55.82 17.1 4.34 9.642.1.7.3.13.153 49.311.37 7 3.134.81 1.953.1 4.334 9.65.2.8.29.13.151 47.39.36 7 5.137.81 2.935.3 4.336 9.648.1.7.29.13.152 49.311.38 72 6.137.81 3.395.3 4.332 9.653.1.8.28.11.151 46.37.36 72 5.136.8 3.92.3 4.33 9.657.2.6.31.14.154 49.31.34 68 3.135.81 5.864 4.331 9.655.3.5.32.14.154 5.311.35 68 3.135.82 7.714.3 4.338 9.645.1.8.27.99.148 45.36.32 65.199.131.8 312 8. 4.329 9.662.68.68.117 6 66.391 96.554 64 8.185.8 31 3.99 4.328 9.661.32.31.77.158 15.324.397.389.327 4.16.63 198.1 2.933 11.527.14.2.6.111.134.185 9.189.168.139.19.63 1.945.2 2.933 11.528.16.23.63.114.138.188 11.192.171.142.112.61 2.93.2 2.919 11.545.14.23.62.114.136.187 9.19.169.14.11.61 3.389.2 2.921 11.543.16.24.62.114.136.187 11.192.17.142.112.61 3.896.1 2.92 11.543.15.24.63.114.136.188 11.191.171.141.111.61 5.869. 2.92 11.542.13.22.61.11.133.186 8.189.169.14.19.61 7.89.1 2.921 11.54.12.22.6.19.132.185 7.187.167.137.17.6 38 8. 2.911 11.554.81.14.157 21 42 99.317 83 52 9.164.61 36 4. 2.918 11.543 8.68.114.168.191 44 63 37 11.174.136 69

7 Table 5. Continued (a) Concluded at values of x L of M NPR α, deg q, psi p, psi.869.883.898.912.927.941.951.963.974 12 177.3 6.124 6.56 42 43.169.18 3 9 14 9 73 1.199 1.939.1 6.119 6.77 45 44.17.18 32 2 11 88 89 1 2.923.2 6.12 6.72 46 45.17.179 31 5 14 9 92 11 31.3 6.122 6.62 46 46.172.178 31 13 18 91 91 12 3.914.2 6.123 6.57 48 47.175.179 32 18 21 92 9 11 5.875.3 6.122 6.61 5 47.174.177 31 15 2 92 81 11 7.816.2 6.123 6.62 49 48.175.178 32 15 2 91.177 1 37 8 6.118 6.74.381.352 74.34.363.381.335.366 77 12 3.378 4.3 6.124 6.51.322.32 29 22 7 85 76.318 83.92 1.513. 4.946 8.689.79.2.25.52.8.91.144.16.18.92 1.951.1 4.949 8.684.81.21.27.54.85.97.151.1.13.9 2.937.3 4.934 8.711.82.24.31.59.9.13.16.2.97.898 3.375.2 4.925 8.724.82.26.33.61.92.16.162.1.96.9 3.913.1 4.935 8.77.81.24.3.58.89.13.16.3.99.9 5.836.3 4.934 8.78.8.23.28.55.84.94.145.16.11.9 7.817 4.938 8.74.73.18.22 7.73.79.123.34.126.9 331 8.8 4.935 8.78.87.62.74.89.91.15.14.94.92 3.384 3.98 4.945 8.69.113.39.34.57.81.88.125.13.94.82 17.1 4.34 9.642.68 5.52.74.95.99.157.3.94.81 1.953.1 4.334 9.65.69 7.54.77.98.14.163.1.87.81 2.935.3 4.336 9.648.7 8.56.79.11.18.168.15.81.81 3.395.3 4.332 9.653.69 7.55.79.1.17.168.14.82.8 3.92.3 4.33 9.657.68 7.54.78.99.16.165.12.85.81 5.864 4.331 9.655.67 5.52.75.94.98.152..97.82 7.714.3 4.338 9.645.63 1 6.68.85.85.134.18.115.8 312 8. 4.329 9.662.19.83.84.15.118.116.152.11.78.8 31 3.99 4.328 9.661.87.64.66.89.15.16.151.8.82.63 198.1 2.933 11.527.66.5.51.65.79.83.128.84.63 1.945.2 2.933 11.528.69.53.55.71.85.89.137.12.73.61 2.93.2 2.919 11.545.68.53.54.72.86.9.14.16.68.61 3.389.2 2.921 11.543.68.53.56.74.88.92.142.17.66.61 3.896.1 2.92 11.543.67.53.54.73.87.91.139.15.69.61 5.869. 2.92 11.542.64.5.51.7.83.84.13.5.82.61 7.89.1 2.921 11.54.61 7 7.66.77.75.117.8.98.6 38 8. 2.911 11.554.19.91.87.19.113.16.142.21.6.61 36 4. 2.918 11.543.84.7.66.9.96.92.131.15.66

Table 5. Continued (b) θ = 45 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.941.951.963.974.997 12 177.3 6.124 6.56.54.117.87.1.37.1.176 49.379.36.33 1.199 1.939.1 6.119 6.77.57.117.87.3.13.179 5.377.32.21 1 2.923.2 6.12 6.72.57.116.88.1.39.12.179 5.377.324.6 11 31.3 6.122 6.62.56.116.88..36.11.177 5.378.327.2 12 3.914.2 6.123 6.57.58.114.87..37.11.178 5.378.328.3 11 5.875.3 6.122 6.61.57.115.87.1.37.11.178 5.377.32.26 11 7.816.2 6.123 6.62.59.114.86.1.38.11.178 5.376.197.5 1 37 8 6.118 6.74.175.3.26.7.3.334.37 87 41 12 3.378 4.3 6.124 6.51.115.56.62.83 25 89 24.342..92 1.513. 4.946 8.689 9.121.24.6.68.68.88.124.8.96.14.92 1.951.1 4.949 8.684 6.119.26.61.7.68.91.13.12.92.134.9 2.937.3 4.934 8.711 6.119.26.62.71.71.96.135.18.87.135.898 3.375.2 4.925 8.724 5.117.29.64.73.72.96.136.19.86.136.9 3.913.1 4.935 8.77 8.121.26.62.7.69.95.135.17.88.139.9 5.836.3 4.934 8.78 6.119.28.63.7.69.87.124.6.99.148.9 7.817 4.938 8.74 7.12.25.61.69.67.75.17.9.114.156.9 331 8.8 4.935 8.78.21.5.89.147.164.159.94.111.9.128.92 3.384 3.98 4.945 8.69 2.112.3.77.91.9.93.129.2.81.118.82 17.1 4.34 9.642.33.96.36.64.69.63.77.113.12.85.158.81 1.953.1 4.334 9.65.34.96.35.63.68.63.8.117.17.8.147.81 2.935.3 4.336 9.648.32.96.35.64.69.64.84.121.21.75.144.81 3.395.3 4.332 9.653.33.97.33.64.69.63.83.121.21.75.145.8 3.92.3 4.33 9.657.36.98.32.62.68.62.81.119.2.77.149.81 5.864 4.331 9.655.33.96.35.65.7.64.76.111.11.87.162.82 7.714.3 4.338 9.645.35.98.34.63.68.62.66.98.3.12.173.8 312 8. 4.329 9.662.14.55 9.83.91.85.11.118.19.74.138.8 31 3.99 4.328 9.661.28.96.17 9.57.53.88.123.23.73.137.63 198.1 2.933 11.527.3.81.27 8.54 5.56.86.79.149.63 1.945.2 2.933 11.528.3.79.31.51.56 7.62.93.12.69.121.61 2.93.2 2.919 11.545.31.8.3.51.56 6.62.95.16.64.118.61 3.389.2 2.921 11.543.28.77.33.54.58 9.65.98.18.62.118.61 3.896.1 2.92 11.543.29.79.31.52.56 8.63.97.17.62.124.61 5.869. 2.92 11.542.29.79.32.53.56 8.58.89.9.73.147.61 7.89.1 2.921 11.54.31.8.32.53.56 6.51.8.1.86.164.6 38 8. 2.911 11.554.59.17 3 9 3.89.19.29.54.118.61 36 4. 2.918 11.543.26.85.5.31.38.33.7.16.26.57.12 71

72 Table 5. Continued (c) θ = 9 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.825.951.963.974.986.997 12 177.3 6.124 6.56.58.1.55.35.69.78.131.148 36.379 27.55.6 1.199 1.939.1 6.119 6.77.59.1.54.39.72.8.134.151 38.381 72.79.3 1 2.923.2 6.12 6.72.57.3.55.38.72.79.133.152 36.381 95.134.18 11 31.3 6.122 6.62.58.2.54.38.71.78.131.156 33.379.3.141.21 12 3.914.2 6.123 6.57.57.2.53.39.71.79.131.156 33.38.31.138.19 11 5.875.3 6.122 6.61.58.2.52.39.72.8.132.156 32.379 67.69.2 11 7.816.2 6.123 6.62.59.1.51.72.79.131.156 32.376.144 8.21 1 37 8 6.118 6.74.12.63.12.53.62.3.31.82.556 74 11.18.123 12 3.378 4.3 6.124 6.51 1.2.27.52.85.66.12.127 81 49 82.116.63.92 1.513. 4.946 8.689.14.27.3.61 5 5.53.59 2.59.12.171 16.92 1.951.1 4.949 8.684.12.25.1.62 6 7.54.58 7.66.97.166 9.9 2.937.3 4.934 8.711.13.25..64 8 8.55.57 12.73.92.161 1.898 3.375.2 4.925 8.724.11.23.1.65.5.5.57.56 13.74.91.161 1.9 3.913.1 4.935 8.77.13.25.1.63 8 7.55.58 12.72.93.162 4.9 5.836.3 4.934 8.78.11.23..64 8 8.55.58 4.55.14.176 21.9 7.817 4.938 8.74.12.25.1.62 6 6.53.6.196.35.119.191 39.9 331 8.8 4.935 8.78.36 1.78 2.146.134.144.3.196.3.116.175 11.92 3.384 3.98 4.945 8.69.6.9.18.99.7.66.76.55.196.74.92.164.82 17.1 4.34 9.642.1.1.15.75.51 6 7.61.185.53.1.164 8.81 1.953.1 4.334 9.65.1.11.15.74.51 7 7.6.189.57.95.158.81 2.935.3 4.336 9.648.9.8.16.75.52 8 8.59.194.6.89.152.191.81 3.395.3 4.332 9.653.9.1.14.73.51 6 7.6.194.6.9.153.191.8 3.92.3 4.33 9.657.1.1.14.73.5 6 7.61.192.58.92.154.194.81 5.864 4.331 9.655.9.8.15.73.51 6 8.59.185.51.11.167 11.82 7.714.3 4.338 9.645.11.1.13.72 9 4 6.62.171.39.115.183 28.8 312 8. 4.329 9.662.2.12.38.121.78.67.75.59 18.7.19.158.191.8 31 3.99 4.328 9.661.18.12.9.73 4.37 3.66.191.37.94.156.192.63 198.1 2.933 11.527.9.5.15.63.35.31.64.157.18.12.154.192.63 1.945.2 2.933 11.528.7.3.16.65 2.36.33.62.167.26.93.144.175.61 2.93.2 2.919 11.545.7.2.17.65 2.36.32.62.171.27.91.138.165.61 3.389.2 2.921 11.543.6..17.65 4.37.34.6.175.31.88.136.163.61 3.896.1 2.92 11.543.7.1.17.65 2.36.33.6.174.3.9.138.167.61 5.869. 2.92 11.542.6.1.16.63 2.34.33.61.164.23.99.153.189.61 7.89.1 2.921 11.54.7.1.14.62.33.32.62.154.13.11.168 9.6 38 8. 2.911 11.554.26.8.9.72.29.36.7 2.8.98.139.16.61 36 4. 2.918 11.543.24.12.1.5.28.19.23.68.199.29.91.139.16

Table 5. Continued (d) θ = 135 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.869 12 177.3 6.124 6.56.65.74.81.58.64.86.95.13.145.138.18 1.199 1.939.1 6.119 6.77.67.76.84.6.66.89.97.132.147.141.111 1 2.923.2 6.12 6.72.65.74.83.58.65.89.96.131.146.141.11 11 31.3 6.122 6.62.66.76.85.56.65.89.96.132.146.141.112 12 3.914.2 6.123 6.57.66.76.84.55.65.9.96.132.146.141.112 11 5.875.3 6.122 6.61.68.77.85.55.66.9.96.132.145.141.113 11 7.816.2 6.123 6.62.69.78.85.55.66.91.97.133.146.142.114 1 37 8 6.118 6.74.141.1 6.1.34.51.87.81.7.27 12 3.378 4.3 6.124 6.51.51.34.9.29 3.64.75.13.141.14.79.92 1.513. 4.946 8.689 5.39.62.53.51 7 1.32.1.1.32.92 1.951.1 4.949 8.684 7.63.53.51 7 1.32..8.34.9 2.937.3 4.934 8.711 4.39.64.55.53.5 3.34.2.7.35.898 3.375.2 4.925 8.724 6 1.66.57.55.51 6.36.6.37.9 3.913.1 4.935 8.77 5.64.55.53 9 4.35.2.8.35.9 5.836.3 4.934 8.78 7 1.65.56.54.5 5.35.3.7.35.9 7.817 4.938 8.74 4.63.54.52 7 2.33..9.32.9 331 8.8 4.935 8.78.67.89.135.145.147.142.128.13 2.6.2.92 3.384 3.98 4.945 8.69 8.54.86.81.78.71.63 8.7.9.21.82 17.1 4.34 9.642.36 5.72.62.55 8 2.34.7.3.37.81 1.953.1 4.334 9.65.37 5.72.62.56 8 2.33.7.2.37.81 2.935.3 4.336 9.648.36 5.73.63.56 8 2.34.7.3.38.81 3.395.3 4.332 9.653.36 4.72.62.56 8 2.33.7.2.37.8 3.92.3 4.33 9.657.36 4.71.62.55 6.32.6.2.37.81 5.864 4.331 9.655.37 5.72.63.55 7 2.34.7.3.37.82 7.714.3 4.338 9.645.36 4.71.63.54 5 1.32.6.1.34.8 312 8. 4.329 9.662.24 5.83.85.79.7.63.51.1.12.15.8 31 3.99 4.328 9.661.18.33.65.61.52 2.38.29.2.13.9.63 198.1 2.933 11.527.28 1.67.54 4.37.29.23.3.1.28.63 1.945.2 2.933 11.528.3 2.69.56 7.39.32.26.7.5.31.61 2.93.2 2.919 11.545.29 2.67.55 6.37.3.25.5.31.61 3.389.2 2.921 11.543.3 4.69.58 7.39.33.27.8.7.32.61 3.896.1 2.92 11.543.3 3.69.58 7.38.32.26.7.6.31.61 5.869. 2.92 11.542.28 2.68.57 6.36.3.24.5.29.61 7.89.1 2.921 11.54.28 1.66.58 5.34.3.25.6.28.6 38 8. 2.911 11.554..22.56.56 3.34.31.24.2.3.61 36 4. 2.918 11.543.21.51 8.34.23.2.15.8.14.1 73

74 Table 5. Continued (d) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 177.3 6.124 6.56.11.88.18.148.168 41.375.316.57.16 1.199 1.939.1 6.119 6.77.18.89.111.15.17 42.376.328.92.5 1 2.923.2 6.12 6.72.18.88.11.149.17 42.379.335.156.14 11 31.3 6.122 6.62.11.88.111.149.171 43.381.339.17.17 12 3.914.2 6.123 6.57.111.89.111.149.171 43.382.34.17.15 11 5.875.3 6.122 6.61.111.89.112.149.172 43.384.336.82.13 11 7.816.2 6.123 6.62.112.9.113.15.173 43.385 36.18.34 1 37 8 6.118 6.74.52.82.19.125.129 4.316.322 55.11 12 3.378 4.3 6.124 6.51.79.68.84.118.138 12.34.32 52.39.92 1.513. 4.946 8.689 9.69.91.122.17.141..1.163.184.92 1.951.1 4.949 8.684.5.71.94.126.113.149.7.93.155.173.9 2.937.3 4.934 8.711.52.73.96.129.116.153.11.9.152.17.898 3.375.2 4.925 8.724.54.75.98.131.117.155.12.89.152.171.9 3.913.1 4.935 8.77.52.72.95.128.114.152.9.92.154.174.9 5.836.3 4.934 8.78.51.71.93.122.16.139.3.15.168.191.9 7.817 4.938 8.74 7.66.86.113.93.122.2.121.184 6.9 331 8.8 4.935 8.78.8.24 4.75.75.126.3.97.155.169.92 3.384 3.98 4.945 8.69.35.56.79.11.15.137.6.88.141.157.82 17.1 4.34 9.642 9.66.82.16.88.128.7.88.152.18.81 1.953.1 4.334 9.65.5.67.85.19.91.133.13.8.143.168.81 2.935.3 4.336 9.648.5.69.86.111.94.138.17.76.138.161.81 3.395.3 4.332 9.653.5.68.85.11.93.137.16.77.139.163.8 3.92.3 4.33 9.657 9.67.84.19.92.136.15.79.141.166.81 5.864 4.331 9.655 9.66.83.15.86.126.91.155.185.82 7.714.3 4.338 9.645 6.62.77.98.76.112.13.19.173 4.8 312 8. 4.329 9.662.6.16.34.63.6.113.3.84.139.159.8 31 3.99 4.328 9.661.23 6.63.91.82.121.1.77.131.155.63 198.1 2.933 11.527.35 9.61.78.6.11.3.77.136.164.63 1.945.2 2.933 11.528.38.53.65.83.67.19.11.67.123.142.61 2.93.2 2.919 11.545.38.54.65.83.67.113.14.64.117.133.61 3.389.2 2.921 11.543.38.54.66.85.7.114.15.62.116.133.61 3.896.1 2.92 11.543.38.54.65.84.68.112.12.65.119.139.61 5.869. 2.92 11.542.35.52.61.8.61.14.3.78.134.165.61 7.89.1 2.921 11.54.33.5.59.75.56.96.11.92.152.188.6 38 8. 2.911 11.554.24.2.13.35.87.6.75.118.134.61 36 4. 2.918 11.543.7.3 2.67.56.97.3.68.11.132

Table 5. Continued (e) θ = 18 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 12 177.3 6.124 6.56.21.55.8.83.79.78.99.122.144.159.178 1.199 1.939.1 6.119 6.77.24.57.82.85.8.8.1.123.145.161.181 1 2.923.2 6.12 6.72.23.55.81.84.79.79.1.122.144.161.182 11 31.3 6.122 6.62.24.54.81.86.79.78.11.123.144.16.181 12 3.914.2 6.123 6.57.24.52.81.85.78.78.12.123.143.159.181 11 5.875.3 6.122 6.61.25.52.81.86.79.79.13.123.143.159.182 11 7.816.2 6.123 6.62.27.52.81.86.78.79.14.123.143.16.183 1 37 8 6.118 6.74.181.135.1.77.52.21.29.62.89.112.122 12 3.378 4.3 6.124 6.51.73 8.27.18.7.13.53.87.12.151.174.92 1.513. 4.946 8.689.57.61.6.53 9.58.65.56 7 5 7.92 1.951.1 4.949 8.684.59.62.6.53 9.58.66.56 8 5 7.9 2.937.3 4.934 8.711.56.61.62.55.51.6.68.58 9 8.5.898 3.375.2 4.925 8.724.58.63.64.57.54.62.69.6.51 9.51.9 3.913.1 4.935 8.77.58.62.62.56.51.6.68.58 9 7 9.9 5.836.3 4.934 8.78.59.63.63.56.52.61.68.58 9 8 9.9 7.817 4.938 8.74.57.61.6.54.5.58.65.56 6 5 5.9 331 8.8 4.935 8.78 1.77.95.12.17.121.125.13.77.61 7.92 3.384 3.98 4.945 8.69 5.66.71.69.67.77.81.68.55 8 4.82 17.1 4.34 9.642 5.6.63.57.52.6.65.59.53.51.51.81 1.953.1 4.334 9.65 4.6.63.57.52.6.64.59.53.52.52.81 2.935.3 4.336 9.648 4.6.63.57.52.6.65.6.54.52.53.81 3.395.3 4.332 9.653 4.6.63.57.52.6.65.59.54.52.52.8 3.92.3 4.33 9.657 3.59.62.55.51.59.63.59.53.51.52.81 5.864 4.331 9.655 4.61.63.57.53.6.65.6.55.52.51.82 7.714.3 4.338 9.645 3.6.62.55.52.59.62.58.52 9 8.8 312 8. 4.329 9.662.3.35 4 3 5.55.59.53 3.34.26.8 31 3.99 4.328 9.661.16 1 6 2 1 9.52 9 4.38.35.63 198.1 2.933 11.527.34.51.51 5.38 6.54 9 8 3 4.63 1.945.2 2.933 11.528.37.54.54 8 1 9.57.52.5 7 6.61 2.93.2 2.919 11.545.35.52.52 6.39 7.54.5.5 6 6.61 3.389.2 2.921 11.543.37.55.54 8 1 9.56.51.52 7 7.61 3.896.1 2.92 11.543.35.54.53 7 1 9.54.51.51 6 5.61 5.869. 2.92 11.542.35.54.53 6 1 8.54.5.51 5 4.61 7.89.1 2.921 11.54.34.55.51 6 8.53.5.5 5 2.6 38 8. 2.911 11.554.19.12.15.1.12.19.25.25.24.14.8.61 36 4. 2.918 11.543.3.3.3.24.24.3.35.36.36.28.24 75

76 Table 5. Continued (e) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.974.986 12 177.3 6.124 6.56.172.165.169.163.164 12 34.37 1.199 1.939.1 6.119 6.77.174.167.17.163.16 9 74.61 1 2.923.2 6.12 6.72.172.165.17.165.161 1 9.113 11 31.3 6.122 6.62.17.164.17.167.164 13 91.125 12 3.914.2 6.123 6.57.169.163.17.167.164 13 91.124 11 5.875.3 6.122 6.61.168.163.17.168.164 12 69.56 11 7.816.2 6.123 6.62.169.164.17.168.164 13.143.21 1 37 8 6.118 6.74.95.94.122.132.155.171 94.314 12 3.378 4.3 6.124 6.51.168.153.157.143.135.178 69.199.92 1.513. 4.946 8.689.6.72.95.18.139.155.11.162.92 1.951.1 4.949 8.684.61.74.97.112.144.163.14.155.9 2.937.3 4.934 8.711.63.76.1.116.15.17.99.151.898 3.375.2 4.925 8.724.65.78.12.118.152.171.99.15.9 3.913.1 4.935 8.77.62.76.1.116.15.17.1.153.9 5.836.3 4.934 8.78.62.74.97.19.14.155.112.164.9 7.817 4.938 8.74.57.69.89.99.125.136.126.179.9 331 8.8 4.935 8.78.39 5.67.85.136.193.18.157.92 3.384 3.98 4.945 8.69.53.64.89.15.149.185.97.143.82 17.1 4.34 9.642.62.69.86.96.128.146.96.154.81 1.953.1 4.334 9.65.64.71.89.1.134.153.89.145.81 2.935.3 4.336 9.648.65.73.91.13.138.159.85.141.81 3.395.3 4.332 9.653.65.73.91.12.137.158.85.141.8 3.92.3 4.33 9.657.65.72.9.11.136.157.86.143.81 5.864 4.331 9.655.65.7.87.96.129.145.98.156.82 7.714.3 4.338 9.645.61.65.79.86.116.128.115.174.8 312 8. 4.329 9.662.34.38.58.74.127.17.91.145.8 31 3.99 4.328 9.661.51.56.76.88.135.166.84.137.63 198.1 2.933 11.527.52.54.68.75.16.121.85.139.63 1.945.2 2.933 11.528.57.59.73.81.113.13.74.124.61 2.93.2 2.919 11.545.57.6.74.82.115.133.69.118.61 3.389.2 2.921 11.543.58.61.75.82.116.136.68.118.61 3.896.1 2.92 11.543.58.61.74.81.115.134.7.12.61 5.869. 2.92 11.542.57.57.7.76.18.125.82.137.61 7.89.1 2.921 11.54.56.55.66.7.11.113.96.155.6 38 8. 2.911 11.554.25.25.52.15.139.77.126.61 36 4. 2.918 11.543 5 4.58.66.113.139.7.118

Table 5. Continued (f) θ = 225 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 177.3 6.124 6.56 23 12.156.13.162 83.381.1.36.9 1.199 1.939.1 6.119 6.77 26 14.156.1.16 84.399.116.51.5 1 2.923.2 6.12 6.72 24 13.156.1.16 84 2.144.7.22 11 31.3 6.122 6.62 21 13.158.14.164 87 2.144.72.26 12 3.914.2 6.123 6.57 19 12.158.14.166 87 2.143.71.26 11 5.875.3 6.122 6.61 19 13.158.12.164 88.393.19 4 11 7.816.2 6.123 6.62 18 13.158.14.166 9 59.65.1.21 1 37 8 6.118 6.74.148.111.6 8.16 8 23.391.16.95 12 3.378 4.3 6.124 6.51 18 13.152.89.146 66.393.171.74.21.92 1.513. 4.946 8.689.81.69.57.7.15.158.71.12.151.176.92 1.951.1 4.949 8.684.83.72.61.76.159.17.64.12.152.175.9 2.937.3 4.934 8.711.85.75.65.82.171.189.54.116.151.172.898 3.375.2 4.925 8.724.87.77.66.83.173.19.53.117.152.172.9 3.913.1 4.935 8.77.85.75.65.82.17.187.55.117.153.174.9 5.836.3 4.934 8.78.83.72.6.75.156.168.65.122.157.183.9 7.817 4.938 8.74.79.65.5.61.135.138.8.128.16.193.9 331 8.8 4.935 8.78.69.5.37.63.18 5 4.117.156.176.92 3.384 3.98 4.945 8.69.82.67.55.76.177 16 6.14.133.151.82 17.1 4.34 9.642.83.67.56.72.158.184 8.128.169.194.81 1.953.1 4.334 9.65.85.7.59.77.167.199.38.122.166.187.81 2.935.3 4.336 9.648.87.73.62.82.174 8.33.119.162.182.81 3.395.3 4.332 9.653.87.72.62.81.173 6.33.119.162.182.8 3.92.3 4.33 9.657.86.71.6.79.171 5.34.12.165.185.81 5.864 4.331 9.655.85.69.56.72.156.182 6.126.169.195.82 7.714.3 4.338 9.645.8.62 7.59.135.152.66.137.175 8.8 312 8. 4.329 9.662.66 6.38.67.184 51.22.116.164.185.8 31 3.99 4.328 9.661.79.6 9.74.175 23.27.19.151.173.63 198.1 2.933 11.527.72.56 4.59.142.168.35.123.169.187.63 1.945.2 2.933 11.528.77.6.5.66.153.182.22.111.155.168.61 2.93.2 2.919 11.545.79.62.52.68.156.185.19.17.152.163.61 3.389.2 2.921 11.543.81.64.53.71.158.188.17.15.15.162.61 3.896.1 2.92 11.543.8.63.53.69.155.185.19.17.153.167.61 5.869. 2.92 11.542.78.59 8.64.145.17.3.118.165.188.61 7.89.1 2.921 11.54.76.56 3.56.131.152 5.131.178 7.6 38 8. 2.911 11.554.58.37.29.58.164 16.6.14.156.171.61 36 4. 2.918 11.543.73.51 2.66.161 2.8.98.145.163 77

78 Table 5. Continued (g) θ = 24 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986 12 177.3 6.124 6.56 12.13.89.124.393 18.114.39 1.199 1.939.1 6.119 6.77 15.129.87.122.393 77.127.53 1 2.923.2 6.12 6.72 15.129.86.122.393.394.145.73 11 31.3 6.122 6.62 17.131.89.125.392.396.148.75 12 3.914.2 6.123 6.57 18.131.9.126.392.385.149.75 11 5.875.3 6.122 6.61 19.13.89.126.393 46.128 8 11 7.816.2 6.123 6.62 2.131.9.126.392.165.83.12 1 37 8 6.118 6.74.113 5.29.12.392.538 59.168 12 3.378 4.3 6.124 6.51 19.121.71.18.382.387.164.86.92 1.513. 4.946 8.689.77 7 6.81.154.81.15.139.92 1.951.1 4.949 8.684.8.52.52.9.17.77.16.142.9 2.937.3 4.934 8.711.84.57.59.13.196.7.14.141.898 3.375.2 4.925 8.724.85.58.61.15.199.7.14.141.9 3.913.1 4.935 8.77.83.57.59.14.196.71.14.141.9 5.836.3 4.934 8.78.78.51.5.88.171.79.19.144.9 7.817 4.938 8.74.7 1.36.66.135.9.111.143.9 331 8.8 4.935 8.78.58.35 3.19 65.66.13.14.92 3.384 3.98 4.945 8.69.73 8.52.12 23.63.83.112.82 17.1 4.34 9.642.75 9.52.11 19.74.126.165.81 1.953.1 4.334 9.65.77.52.57.112 4.67.123.164.81 2.935.3 4.336 9.648.8.56.63.12 53.62.121.162.81 3.395.3 4.332 9.653.79.56.63.119 51.63.121.161.8 3.92.3 4.33 9.657.77.54.6.116 51.64.125.164.81 5.864 4.331 9.655.74.5.52.1 2.74.127.165.82 7.714.3 4.338 9.645.65.39.37.75.178.92.133.167.8 312 8. 4.329 9.662.53.36.5.128.317.57.122.165.8 31 3.99 4.328 9.661.64 6.55.116 73.6.17.146.63 198.1 2.933 11.527.6.35 2.93 24.65.136.172.63 1.945.2 2.933 11.528.64 1 9.14 46.53.126.162.61 2.93.2 2.919 11.545.65 4.52.17 49.51.124.16.61 3.389.2 2.921 11.543.66 5.53.18 52.5.122.157.61 3.896.1 2.92 11.543.64 5.52.16 51.51.124.159.61 5.869. 2.92 11.542.59.39 5.96 33.64.134.169.61 7.89.1 2.921 11.54.54.34.37.81 8.79.145.178.6 38 8. 2.911 11.554.35.28 2.117.39 5.13.169.61 36 4. 2.918 11.543 8.38 9.111 86 8.121.154

Table 5. Continued (h) θ = 255 at values of x L of M NPR α, deg q, psi p, psi.941.963.974.986.997 12 177.3 6.124 6.56.134 53.97.3 1.199 1.939.1 6.119 6.77.133 83.123.18.28 1 2.923.2 6.12 6.72.133.334.157.37.13 11 31.3 6.122 6.62.136.34.161.39.12 12 3.914.2 6.123 6.57.137.334.159.37.15 11 5.875.3 6.122 6.61.136 7.114.7 7 11 7.816.2 6.123 6.62.137 1.62.3.84 1 37 8 6.118 6.74.18.528 84.182.88 12 3.378 4.3 6.124 6.51.12.313.167.53..92 1.513. 4.946 8.689 4.75.12.137.174.92 1.951.1 4.949 8.684.54.7.1.137.174.9 2.937.3 4.934 8.711.69.63.96.137.174.898 3.375.2 4.925 8.724.72.63.97.138.175.9 3.913.1 4.935 8.77.71.65.99.139.177.9 5.836.3 4.934 8.78.53.72.12.139.179.9 7.817 4.938 8.74.28.82.18.141.18.9 331 8.8 4.935 8.78.74.51.88.131.171.92 3.384 3.98 4.945 8.69.62 8.73.13.137.82 17.1 4.34 9.642.76.76.116.16.198.81 1.953.1 4.334 9.65.89.72.115.16.194.81 2.935.3 4.336 9.648.98.68.116.16.191.81 3.395.3 4.332 9.653.97.69.117.16.192.8 3.92.3 4.33 9.657.94.7.114.16.193.81 5.864 4.331 9.655.73.74.112.159.197.82 7.714.3 4.338 9.645 5.85.118.163 2.8 312 8. 4.329 9.662.18.65.115.158.192.8 31 3.99 4.328 9.661.89.62.15.141.173.63 198.1 2.933 11.527.74.79.131.172.195.63 1.945.2 2.933 11.528.86.68.123.161.177.61 2.93.2 2.919 11.545.9.65.121.16.173.61 3.389.2 2.921 11.543.91.64.119.157.172.61 3.896.1 2.92 11.543.89.66.122.159.175.61 5.869. 2.92 11.542.76.77.13.168.192.61 7.89.1 2.921 11.54.6.91.14.177 6.6 38 8. 2.911 11.554.14.66.133.168.182.61 36 4. 2.918 11.543.92.63.124.155.168 79

8 Table 5. Continued (i) θ = 27 at values of x L of M NPR α, deg q, psi p, psi.951.963.974.986 12 177.3 6.124 6.56.331.174.8.1 1.199 1.939.1 6.119 6.77.333 2.95.9 1 2.923.2 6.12 6.72.332 38.114.21 11 31.3 6.122 6.62.332 41.117.22 12 3.914.2 6.123 6.57.331 36.117.22 11 5.875.3 6.122 6.61.33.185.92.2 11 7.816.2 6.123 6.62.31.128.54.29 1 37 8 6.118 6.74.358.39 27.148 12 3.378 4.3 6.124 6.51.349 14.113.38.92 1.513. 4.946 8.689 4.75.12.132.92 1.951.1 4.949 8.684.37.69.99.133.9 2.937.3 4.934 8.711.22.62.96.133.898 3.375.2 4.925 8.724.19.61.96.134.9 3.913.1 4.935 8.77.2.63.98.136.9 5.836.3 4.934 8.78.38.68.11.135.9 7.817 4.938 8.74.58.8.17.136.9 331 8.8 4.935 8.78.19.5.85.126.92 3.384 3.98 4.945 8.69.32.51.71.96.82 17.1 4.34 9.642.5.73.117.16.81 1.953.1 4.334 9.65.22.68.117.16.81 2.935.3 4.336 9.648.34.65.117.159.81 3.395.3 4.332 9.653.35.66.119.161.8 3.92.3 4.33 9.657.29.66.116.16.81 5.864 4.331 9.655..68.112.157.82 7.714.3 4.338 9.645.33.78.118.16.8 312 8. 4.329 9.662.38.56.114.158.8 31 3.99 4.328 9.661.18.57.11.137.63 198.1 2.933 11.527.29.76.133.172.63 1.945.2 2.933 11.528 3.68.126.165.61 2.93.2 2.919 11.545 8.65.124.162.61 3.389.2 2.921 11.543.5.62.123.16.61 3.896.1 2.92 11.543 8.64.125.162.61 5.869. 2.92 11.542.34.73.133.17.61 7.89.1 2.921 11.54.15.85.143.177.6 38 8. 2.911 11.554.68.62.135.171.61 36 4. 2.918 11.543.52.58.125.156

Table 5. Continued (j) θ = 285 at values of x L of M NPR α, deg q, psi p, psi.927.941.951.963.974.986.997 12 177.3 6.124 6.56.95.129 7.16.144.73.19 1.199 1.939.1 6.119 6.77.92.129 1.18.161.86.8 1 2.923.2 6.12 6.72.94.13 9 2.181.13.6 11 31.3 6.122 6.62.98.132 1 4.185.17.7 12 3.914.2 6.123 6.57.11.134 11 2.185.19.6 11 5.875.3 6.122 6.61.99.134 1.169.158.88.14 11 7.816.2 6.123 6.62.1.135 1.12.113.54 4 1 37 8 6.118 6.74 14 12 48.32 52.19.99 12 3.378 4.3 6.124 6.51.176.191 26.198.176.12.18.92 1.513. 4.946 8.689.8.16.72.98.136.178.92 1.951.1 4.949 8.684.12.19.1.68.98.137.181.9 2.937.3 4.934 8.711.24.39.21.62.95.137.179.898 3.375.2 4.925 8.724.28 3.23.62.95.137.18.9 3.913.1 4.935 8.77.25 2.21.63.95.138.181.9 5.836.3 4.934 8.78.13.2.1.71.1.14.182.9 7.817 4.938 8.74.9.12.32.8.15.141.182.9 331 8.8 4.935 8.78.16.7.5.5.83.132.182.92 3.384 3.98 4.945 8.69..11.28 9.69.11.147.82 17.1 4.34 9.642 3.73.63.73.115.161 1.81 1.953.1 4.334 9.65.53.88.83.66.113.16.199.81 2.935.3 4.336 9.648.58.98.95.63.112.159.197.81 3.395.3 4.332 9.653.57.97.95.63.112.159.197.8 3.92.3 4.33 9.657.55.93.95.65.116.161.197.81 5.864 4.331 9.655 2.7.65.72.118.161.199.82 7.714.3 4.338 9.645.23.38.24.87.124.163 4.8 312 8. 4.329 9.662.65.96.92.51.111.164 1.8 31 3.99 4.328 9.661 8.62.37 5.94.144.184.63 198.1 2.933 11.527 6.8.96.77.127.172.63 1.945.2 2.933 11.528.53.92.114.64.119.162.184.61 2.93.2 2.919 11.545.56.97.119.62.118.16.18.61 3.389.2 2.921 11.543.57.97.121.6.116.159.178.61 3.896.1 2.92 11.543.55.95.118.61.117.161.18.61 5.869. 2.92 11.542 7.83.11.72.127.172.195.61 7.89.1 2.921 11.54.36.65.76.84.136.182 9.6 38 8. 2.911 11.554.73.115.145.58.128.174.185.61 36 4. 2.918 11.543.59.88.13.56.114.159.173 81

82 Table 5. Continued (k) θ = 3 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.997 12 177.3 6.124 6.56.363 46.95.99.384.1.18.25.38 1.199 1.939.1 6.119 6.77.366 33.92.98 61.124.38.8.27 1 2.923.2 6.12 6.72.366 38.94.1 87.152.6.11.14 11 31.3 6.122 6.62.366 47.99.12 87.154.61.13.13 12 3.914.2 6.123 6.57.366 53.12.14 85.15.57.11.16 11 5.875.3 6.122 6.61.367 47.11.14 21.14.17.22 11 7.816.2 6.123 6.62.368 48.13.15 3.57.23.6.65 1 37 8 6.118 6.74 47 8 21.187.52 27.171.92.33 12 3.378 4.3 6.124 6.51 1.326.18.16.327.117.52.17.9.92 1.513. 4.946 8.689.39.16.17.39.84.17.135.174.139.92 1.951.1 4.949 8.684 3.2.24.5.8.16.137.174.132.9 2.937.3 4.934 8.711 9.28.35.66.73.14.137.174.133.898 3.375.2 4.925 8.724.52.3.38.7.72.13.137.175.135.9 3.913.1 4.935 8.77 9.28.36.69.75.15.139.177.137.9 5.836.3 4.934 8.78 4.21.24.5.81.16.138.18.146.9 7.817 4.938 8.74.32.6.2.9.11.138.182.153.9 331 8.8 4.935 8.78.81 2.24.37.57.9.126.175.125.92 3.384 3.98 4.945 8.69 4.18.1.18.54.74.99.144.114.82 17.1 4.34 9.642.72 5.52.92.81.122.159.197.157.81 1.953.1 4.334 9.65.77.51.59.14.74.121.158.194.145.81 2.935.3 4.336 9.648.79.54.64.111.69.119.157.19.141.81 3.395.3 4.332 9.653.78.53.62.11.68.121.158.19.142.8 3.92.3 4.33 9.657.77.52.61.18.71.118.156.191.146.81 5.864 4.331 9.655.72 5.5.89.79.117.156.198.158.82 7.714.3 4.338 9.645.63.33.32.63.93.123.16 5.169.8 312 8. 4.329 9.662.99.71.71.119.65.116.152.193.131.8 31 3.99 4.328 9.661.82.57.54.86.6.15.135.178.131.63 198.1 2.933 11.527.73 3.5.87.73.135.169.192.146.63 1.945.2 2.933 11.528.77 8.57.99.6.125.158.177.118.61 2.93.2 2.919 11.545.78.51.59.12.56.122.155.171.113.61 3.389.2 2.921 11.543.78.51.59.13.55.121.152.17.114.61 3.896.1 2.92 11.543.78.51.58.11.57.122.154.175.119.61 5.869. 2.92 11.542.73 5.5.9.69.131.164.194.143.61 7.89.1 2.921 11.54.67.39.74.86.141.173 1.157.6 38 8. 2.911 11.554.19.76.75.125.53.124.153.182.18.61 36 4. 2.918 11.543.88.61.59.96.51.114.141.172.19

Table 5. Continued (l) θ = 315 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 177.3 6.124 6.56 98.32.311.92.97 5 9.11 5.15 1.199 1.939.1 6.119 6.77.3.32.35.86.96 51.355.126.59.2 1 2.923.2 6.12 6.72.3.319.37.88.96 51.391.151.76.15 11 31.3 6.122 6.62 99.316.311.92.97 51.391.154.8.2 12 3.914.2 6.123 6.57 99.316.314.95.99 52.389.153.81.21 11 5.875.3 6.122 6.61 99.315.311.92.97 52.322.118.59.1 11 7.816.2 6.123 6.62.3.314.311.93.98 52.18.77.24.23 1 37 8 6.118 6.74.389 3 12 63 3.327 61 39.167.96 12 3.378 4.3 6.124 6.51.346.367.374.179.154 89.331.148.78.29.92 1.513. 4.946 8.689.54.31.2.34.7.12.81.117.137.172.92 1.951.1 4.949 8.684.56.33.24.39.79.115.73.117.137.172.9 2.937.3 4.934 8.711.61.39.31 8.92.135.63.113.137.171.898 3.375.2 4.925 8.724.62 2.34.51.96.138.61.113.137.171.9 3.913.1 4.935 8.77.6.39.31 9.94.136.64.114.139.173.9 5.836.3 4.934 8.78.58.35.25.79.114.74.119.143.181.9 7.817 4.938 8.74 9.26.12.22.53.79.92.123.146.188.9 331 8.8 4.935 8.78.129.75 3 2.75.118.67.16.134.171.92 3.384 3.98 4.945 8.69.74 1.23.3.53.64.63.81.14.139.82 17.1 4.34 9.642.75.61 8.63.16.156.51.126.156.193.81 1.953.1 4.334 9.65.77.64.53.69.116.17 2.121.152.189.81 2.935.3 4.336 9.648.79.67.55.73.121.179.37.117.149.182.81 3.395.3 4.332 9.653.79.67.55.72.121.179.37.117.15.183.8 3.92.3 4.33 9.657.77.66.54.71.119.177.37.119.153.185.81 5.864 4.331 9.655.76.63 8.62.15.155.5.126.158.196.82 7.714.3 4.338 9.645.69.55.38 8.85.123.72.136.165 7.8 312 8. 4.329 9.662.19.93.74.86.139 5.37.117.154.187.8 31 3.99 4.328 9.661.92.79.6.72.17.14 4.15.137.173.63 198.1 2.933 11.527.74.6 4.6.97.143.39.121.155.188.63 1.945.2 2.933 11.528.78.65 9.66.15.157.26.19.144.172.61 2.93.2 2.919 11.545.78.67.51.69.19.162.23.15.141.165.61 3.389.2 2.921 11.543.79.69.52.7.11.164.2.14.139.165.61 3.896.1 2.92 11.543.79.7.52.69.11.162.23.15.143.169.61 5.869. 2.92 11.542.75.66 8.63.11.148.34.117.158.191.61 7.89.1 2.921 11.54.72.63 2.55.89.13.5.131.172 11.6 38 8. 2.911 11.554.119.17.8.93.141 1.13.16.15.175.61 36 4. 2.918 11.543.95.88.65.77.113.15.24.12.143.167 83

84 Table 5. Continued (m) Top interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.898.941 12 177.3 6.124 6.56 2.36.353.145 1.199 1.939.1 6.119 6.77 4.37.354.144 1 2.923.2 6.12 6.72 5.38.355.145 11 31.3 6.122 6.62 4.37.355.147 12 3.914.2 6.123 6.57 5.36.356.148 11 5.875.3 6.122 6.61 6.36.357.147 11 7.816.2 6.123 6.62 7.36.357.147 1 37 8 6.118 6.74.18.17 36 17 12 3.378 4.3 6.124 6.51.127.123.199.92 1.513. 4.946 8.689.1.24.11.92 1.951.1 4.949 8.684.2.22 3..9 2.937.3 4.934 8.711..22.5.18.898 3.375.2 4.925 8.724.2.52.22.9 3.913.1 4.935 8.77.2.21 9.22.9 5.836.3 4.934 8.78.3.2 5.1.9 7.817 4.938 8.74.1.22.34.3.9 331 8.8 4.935 8.78 2.14.88.1.92 3.384 3.98 4.945 8.69.5.8 8.2.82 17.1 4.34 9.642.22.21.7.54.81 1.953.1 4.334 9.65.24.22.74.69.81 2.935.3 4.336 9.648.23.21.77.8.81 3.395.3 4.332 9.653.24.22.75.79.8 3.92.3 4.33 9.657.24.23.74.76.81 5.864 4.331 9.655.27.24.7.51.82 7.714.3 4.338 9.645.21.22.61.19.8 312 8. 4.329 9.662.73.7.97.76.8 31 3.99 4.328 9.661 9.53.81 7.63 198.1 2.933 11.527.39 4.7.64.63 1.945.2 2.933 11.528 5.74.77.61 2.93.2 2.919 11.545.37 4.75.81.61 3.389.2 2.921 11.543.38 5.76.82.61 3.896.1 2.92 11.543.38 5.76.82.61 5.869. 2.92 11.542.37 6.71.68.61 7.89.1 2.921 11.54.34 4.64.5.6 38 8. 2.911 11.554.91.18.15.98.61 36 4. 2.918 11.543.63.78.84.76

Table 5. Concluded (n) Bottom interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.869.883.941 12 177.3 6.124 6.56.21 7.72.86.95.97 15 31.144 1.199 1.939.1 6.119 6.77.23 8.73.87.96.98 18 35.143 1 2.923.2 6.12 6.72.22 7.72.85.96.97 17 33.143 11 31.3 6.122 6.62.21 6.72.85.98.1 14 32.145 12 3.914.2 6.123 6.57.19 4.7.83.96.1 13 3.145 11 5.875.3 6.122 6.61.19 4.7.83.97.11 13 31.146 11 7.816.2 6.123 6.62.19 2.69.82.96.11 13 31.145 1 37 8 6.118 6.74.181.146.111.87.57.22.157.154.12 12 3.378 4.3 6.124 6.51.69.5.33.27.1.18 9 3.134.92 1.513. 4.946 8.689.61.62.6.59.67.9.74.78.27.92 1.951.1 4.949 8.684.61.62.61.58.66.9.75.8.38.9 2.937.3 4.934 8.711.6.63.62.61.69.92.77.83.54.898 3.375.2 4.925 8.724.62.65.64.62.71.93.79.84.57.9 3.913.1 4.935 8.77.62.64.63.61.69.92.77.82.56.9 5.836.3 4.934 8.78.63.65.64.61.7.92.75.79.38.9 7.817 4.938 8.74.63.63.61.6.67.89.71.74.11.9 331 8.8 4.935 8.78.38.72.89.1.115.148.67.63.58.92 3.384 3.98 4.945 8.69 8.65.71.73.81.17.73.76 3.82 17.1 4.34 9.642 7.59.62.62.7.91.78.79.66.81 1.953.1 4.334 9.65 6.58.61.63.7.92.78.8.8.81 2.935.3 4.336 9.648 7.6.63.63.71.92.8.83.9.81 3.395.3 4.332 9.653 7.6.63.63.71.92.8.83.9.8 3.92.3 4.33 9.657 6.59.62.63.7.91.79.81.86.81 5.864 4.331 9.655 8.61.64.64.71.92.79.8.64.82 7.714.3 4.338 9.645 7.6.62.63.69.89.75.74.34.8 312 8. 4.329 9.662.29.39 6.56.83.58.59.12.8 31 3.99 4.328 9.661.21.39 5 9.56.8.68.71.79.63 198.1 2.933 11.527.35 9.52.54.6.8.67.68.68.63 1.945.2 2.933 11.528.38.51.54.55.62.82.71.72.81.61 2.93.2 2.919 11.545.38.52.55.56.62.82.72.73.85.61 3.389.2 2.921 11.543.39.53.56.57.62.82.73.75.86.61 3.896.1 2.92 11.543.39.52.55.57.62.81.72.74.84.61 5.869. 2.92 11.542.38.52.55.57.61.8.7.71.71.61 7.89.1 2.921 11.54.53.55.57.61.79.68.69.56.6 38 8. 2.911 11.554.14.5.12.18.22 6 5 7.13.61 36 4. 2.918 11.543.1.27.31.35.38.58.6.62.88 85

86 Table 6. Static Pressure Coefficients of Afterbody Surface With Horizontal Tail in Aft Position and Vertical Tail in Mid Position (a) θ = at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 12 185.1 6.141 6.68 7.72.77.67.38.22.29.19.6.33.81 13 1.986.2 6.142 6.63 6.7.77.67.39.23.29.19.6.33.82 13 2.955.3 6.143 6.62 6.7.77.68.39.22.29.19.6.33.83 11 3.398 6.138 6.82 9.71.78.7 1.24.29.18.8.35.86 1 3.912 6.137 6.84 9.71.79.71 2.25.28.17.9.36.87 1 5.854.6 6.136 6.87.51.72.8.73 3.26.26.15.1.38.89 11 7.886.7 6.138 6.79.51.71.8.75 5.26.26.16.9.37.88 1 7.867.2 6.137 6.86.52.71.8.75 5.26.27.16.9.37.89 1 317 8.5 6.135 6.89.192 11 1.191.146.113.111.135.168.17 7 1.198 3.387 4 6.133 6.11.131.149.149.137.15.84.7.84.117.136.177.9 181.2 4.949 8.734.34.18.13 9 5.67.145 23.319.91 1.971.3 4.955 8.724.36.2.6.12 7 5.3.66.143 21.318.9 2.943.1 4.951 8.732.35.18.5.12 8 5.67.144 23.319.91 3.369.2 4.954 8.727.35.18.5.12 8 5.3.67.144 22.319.899 3.919.3 4.943 8.746.35.18.5.12 8 4.5.69.146 25.322.9 5.836.2 4.949 8.735.36.2.7.11 7 3.5.69.146 24.32.899 7.828 4.947 8.739.34.19.5.12 8 4.68.145 23.32.9 339 8.3 4.949 8.736.18.15.97.77.34.34.84.153 33.311 6.9 311 4.2 4.948 8.736 6.38.29.13.19.12 1.18.186 65.359.8 181.1 4.339 9.694.33.31.27.2.5.21.9.165 5.331 4.81 1.971.2 4.345 9.685.33.32.28.21.22.91.166 52.333 8.81 2.944.3 4.348 9.68.36.33.28.21.22.92.166 53.337 15.8 3.2 4.34 9.691.36.33.28.21.3.23.92.167 53.335 12.8 3.936.2 4.339 9.692.37.34.29.23.2.24.94.17 56.339 16.81 5.97.1 4.345 9.684.35.34.28.2.6.21.91.165 51.333 7.81 7.851.2 4.35 9.677.34.32.27.18.7.2.89.162 48.328.398.799 319 8.1 4.334 9.74.97.94.86.76.5.89.175 62.359 54.564.799 3.383 4.3 4.338 9.696.56.53 6.37.18.54.137 19.311 2 99.61 188. 2.928 11.578.29.32.35.32.17.51.115.155.198 25 49.62 1.957.1 2.939 11.567.29.33.35.32.19.54.119.16 3 29 53.61 2.949.2 2.925 11.582.3.34.37.33.2.54.118.16 3 3 54.62 3.368.2 2.936 11.568.3.35.37.34.2.55.12.161 4 31 55.61 3.922.2 2.929 11.577.29.35.37.32.19.56.121.161 5 32 55.61 5.881 2.929 11.576.29.35.36.3.17.54.118.158 27 49.61 7.86.2 2.931 11.575.27.36.37.3.16.54.118.157 25 45.599 32 8.1 2.913 11.598.81.9.85.79.7.13 19 69.313.335.343.61 3.397 4. 2.929 11.577.5.59.58 9 2.92.17 13 54 78 92

Table 6. Continued (a) Concluded at values of x L of M NPR α, deg q, psi p, psi.869.883.898.912.927.941.951.963.974 12 185.1 6.141 6.68.127.17 15 73.34 85 38.337 9 13 1.986.2 6.142 6.63.128.17 15 72.34 87 39.337 71 13 2.955.3 6.143 6.62.13.172 17 73.341 91 41.338.33 11 3.398 6.138 6.82.134.174 2 75.344 94 45.343.37 1 3.912 6.137 6.84.135.175 21 74.344 95 46.344.34 1 5.854.6 6.136 6.87.137.177 24 76.346 97 49.346 45 11 7.886.7 6.138 6.79.138.177 24 75.345.3 5.344.145 1 7.867.2 6.137 6.86.139.177 25 75.346.3 5.346.146 1 317 8.5 6.135 6.89 54 8.321.375 44 77.359 28 8 1.198 3.387 4 6.133 6.11 26 54 93.345 15.343.33.381 38.9 181.2 4.949 8.734 4 75.545 64.83.53.82.38.14.91 1.971.3 4.955 8.724 3 73.547 94.86.57.87.33.11.9 2.943.1 4.951 8.732 5 75.553.324.91.61.95.28.98.91 3.369.2 4.954 8.727 4 75.553.344.93.62.96.27.98.899 3.919.3 4.943 8.746 8 78.556.318.91.62.96.28.99.9 5.836.2 4.949 8.735 6 77.551 86.86.55.85.37.15.899 7.828 4.947 8.739 5 75.538 23.76 7.7 8.113.9 339 8.3 4.949 8.736 87.554.576 5.119.74.62.26.73.9 311 4.2 4.948 8.736 44.57.527 14.97.71.87.9.6.8 181.1 4.339 9.694.382.38 25.152.12.87.14.6.95.81 1.971.2 4.345 9.685.39.313 29.156.17.92.148.2.87.81 2.944.3 4.348 9.68.397.318 33.159.111.97.154.7.81.8 3.2 4.34 9.691.394.317 33.159.111.97.154.7.82.8 3.936.2 4.339 9.692.398.318 33.16.111.97.152.6.82.81 5.97.1 4.345 9.684.385.31 26.154.13.87.138.6.96.81 7.851.2 4.35 9.677.375.31 17.145.94.74.12.24.112.799 319 8.1 4.334 9.74.633 1 53.176.123.98.126.3.81.799 3.383 4.3 4.338 9.696 68.335 36.164.111.91.129.1.81.61 188. 2.928 11.578 33 6.169.134.12.87.132.3.83.62 1.957.1 2.939 11.567 37 1.173.139.18.94.141.11.72.61 2.949.2 2.925 11.582 38 11.175.142.111.97.145.16.67.62 3.368.2 2.936 11.568 37 12.174.142.111.96.143.15.68.61 3.922.2 2.929 11.577 36 12.173.143.111.95.141.15.69.61 5.881 2.929 11.576 3 6.167.139.14.88.131.82.61 7.86.2 2.931 11.575 25 2.161.134.99.79.117.8.97.599 32 8.1 2.913 11.598.38 75 2.185.139.111.141.2.62.61 3.397 4. 2.929 11.577 63 37.189.163.121.97.13.15.67 87

88 Table 6. Continued (b) θ = 45 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.912.941.951.963.974.997 12 185.1 6.141 6.68 9.9.17.23.57 1.147.365.121.191.317 62.11 13 1.986.2 6.142 6.63 9.9.17.22.55 1.154.365.122.191.316 85.12 13 2.955.3 6.143 6.62.5.8.17.21.54 1.158.366.123.191.316 96.28 11 3.398 6.138 6.82.51.7.17.23.57 1.159.369.125.194.318.3.3 1 3.912 6.137 6.84.53.6.16.23.57 1.162.369.127.194.318 99.24 1 5.854.6 6.136 6.87.56.15.24.57 1.163.369.128.195.318 91.9 11 7.886.7 6.138 6.79.56.2.15.23.57 1.164.368.129.196.318 4.35 1 7.867.2 6.137 6.86.56.2.14.24.57 1.163.367.129.197.318 4.35 1 317 8.5 6.135 6.89.175.86.87.17.119.981 88 99.339 34 68.59 1.198 3.387 4 6.133 6.11.117 5.5.8.11.973 42.187 45.362 97 5.9 181.2 4.949 8.734.7.3.2.24.62.59 76.11 4.19.97.129.91 1.971.3 4.955 8.724.5.3.2.25.63.51 82.14 8.15.93.12.9 2.943.1 4.951 8.732.6.28.18.23.6 89 9.17.52.11.9.121.91 3.369.2 4.954 8.727.28.17.22.61 83 9.17.52.11.89.122.899 3.919.3 4.943 8.746.8.3.19.23.62 76 89.16.51.12.9.126.9 5.836.2 4.949 8.735.28.18.23.62 71 79.11 3.2.99.133.899 7.828 4.947 8.739.5.29.17.22.61 64 67.32.31.11.139.9 339 8.3 4.949 8.736.77.62.87.86.36 71.38.37.32.19.77.1.9 311 4.2 4.948 8.736..14.8.7.34 7 72.25.53.3.72.95.8 181.1 4.339 9.694..12.3.1.33 42.129 2.75..85.15.81 1.971.2 4.345 9.685..13.2.1.32 36.132 6.81.6.78.138.81 2.944.3 4.348 9.68.2.11.2.31 29.135 9.85.11.73.136.8 3.2 4.34 9.691.1.12.3.1.32 22.135 9.85.11.74.137.8 3.936.2 4.339 9.692.1.11.5.29 16.136.5.86.11.73.139.81 5.97.1 4.345 9.684.1.13.3.2.32 11.13 1.75.1.86.153.81 7.851.2 4.35 9.677.2.14.3.2.33 5.123.32.63.14.11.163.799 319 8.1 4.334 9.74 9.36.56.55.17 11.178.6.68.3.7.121.799 3.383 4.3 4.338 9.696.7.5.16.16.21 12.149.51.81.11.69.124.61 188. 2.928 11.578.2.1.6.24 45.117.33.65.2.8.149.62 1.957.1 2.939 11.567.1.1.5.23 53.122.37.71.5.71.125.61 2.949.2 2.925 11.582.1.9.8.6.22 75.125 1.76.1.64.118.62 3.368.2 2.936 11.568.1.9.8.7.21 82.125.77.11.63.121.61 3.922.2 2.929 11.577.11.6.5.24 91.124.38.76.1.64.128.61 5.881 2.929 11.576.6.12.6.5.24.34.121.33.68.3.74.152.61 7.86.2 2.931 11.575.6.13.6.6.24.311.116.26.6.5.85.166.599 32 8.1 2.913 11.598.28.18.37.38.7.35.16.65.83.21.54.122.61 3.397 4. 2.929 11.577.3.8.16.16.15 98.139 6.8.19.57.124

Table 6. Continued (c) θ = 9 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.825.951.963.974.986.997 12 185.1 6.141 6.68.57.3.39.58.99.98.12.75 12.337 14.92.23 13 1.986.2 6.142 6.63.57.3.39.59.99.98.12.75 1.336 3.134 5 13 2.955.3 6.143 6.62.57.39.59.99.98.121.77 9.337 35.156.55 11 3.398 6.138 6.82.59.36.62.11.1.122.82 12.339 38.155.54 1 3.912 6.137 6.84.59.35.63.12.1.122.83 11.339 38.142.5 1 5.854.6 6.136 6.87.61.6.34.65.13.11.123.86 1.341 2.78.29 11 7.886.7 6.138 6.79.61.6.33.65.13.11.123.86 9.337.16.52 1 7.867.2 6.137 6.86.64.8.31.66.13.12.123.89 9.338.161.53.5 1 317 8.5 6.135 6.89.98.64.78.113.64.78.31 68.381 18.142.93 1.198 3.387 4 6.133 6.11.35.11.13.78.125.13.128.68 32.351 46.156.7.9 181.2 4.949 8.734.6.25.12.34.1.8.1.86 2.56.92.159.199.91 1.971.3 4.955 8.724.6.24.12.34.1.8.2.86 8.6.88.154.192.9 2.943.1 4.951 8.732.7.24.11.34.1.7.3.84 6.62.87.152.187.91 3.369.2 4.954 8.727.6.23.11.35.2.7.84 45 8.87.152.188.899 3.919.3 4.943 8.746.7.24.11.35.2.7.3.85 43 7.88.153.19.9 5.836.2 4.949 8.735.22.11.35.2.6.3.85 32.38.98.164 5.899 7.828 4.947 8.739.6.23.11.34.1.8.2.86 13.23.18.175 19.9 339 8.3 4.949 8.736.52.56.86.187.13.74.8.64 23.27.93.144.175.9 311 4.2 4.948 8.736.5.3.15.76.27.1.19.87 24.66.84.148.178.8 181.1 4.339 9.694.1.8.55.21.1.13.78.191 5.1.162 4.81 1.971.2 4.345 9.685.9.9.56.22.11.14.76.197.51.94.155.195.81 2.944.3 4.348 9.68.2.8.9.57.22.12.15.76 2.55.89.15.187.8 3.2 4.34 9.691.2.8.9.56.23.12.15.76 4.55.9.15.188.8 3.936.2 4.339 9.692.2.7.1.57.23.12.16.75 2.56.9.151.189.81 5.97.1 4.345 9.684.3.7.8.55.21.11.14.77.193 4.11.165 7.81 7.851.2 4.35 9.677.8.6.54.2.9.13.77.182.3.114.179 24.799 319 8.1 4.334 9.74.8.19 2.114.58.38 1.78.143.1.11.148.181.799 3.383 4.3 4.338 9.696.1.7.9.61.21.7.1.84.159 2.92.15.184.61 188. 2.928 11.578.6.6.9 8.19.12.6.78.142.15.17.157.194.62 1.957.1 2.939 11.567.7.1.5.2.13.7.76.149.2.1.147.179.61 2.949.2 2.925 11.582.6.1.5.22.13.9.75.153.22.95.14.169.62 3.368.2 2.936 11.568.5.3.1.5.21.12.9.74.155.23.96.141.169.61 3.922.2 2.929 11.577.6.3.9 8.2.1.8.75.155.24.96.143.172.61 5.881 2.929 11.576.7.3.6 5.18.8.7.76.149.18.15.156.191.61 7.86.2 2.931 11.575.7.5 4.17.7.6.75.139.1.116.17 8.599 32 8.1 2.913 11.598.25.6.7.61.24.7.11.86.158.2.11.141.165.61 3.397 4. 2.929 11.577.24.12.36.9.3.84.149.2.98.144.168 89

9 Table 6. Continued (d) θ = 135 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.869 12 185.1 6.141 6.68.59.67.79.6.7.99.18.142.142.111.94 13 1.986.2 6.142 6.63.59.69.82.61.7.1.17.141.141.111.95 13 2.955.3 6.143 6.62.6.7.83.61.7.11.19.142.141.112.97 11 3.398 6.138 6.82.61.71.83.6.73.13.11.144.144.115.98 1 3.912 6.137 6.84.62.72.84.6.73.15.111.145.144.115.1 1 5.854.6 6.136 6.87.64.73.85.6.74.16.112.145.144.116.1 11 7.886.7 6.138 6.79.65.74.85.6.73.16.112.144.144.116.12 1 7.867.2 6.137 6.86.67.75.87.6.75.17.112.146.145.118.14 1 317 8.5 6.135 6.89.144.12 5.2.38.73.73.126.119.59.17 1.198 3.387 4 6.133 6.11.57.36.11.31.5.79.97.157.165.136.7.9 181.2 4.949 8.734.39.33.55.38.3.23.16.11.12.8 9.91 1.971.3 4.955 8.724.34.56.39.3.23.17.11.12.8 9.9 2.943.1 4.951 8.732.39.34.56.38.31.24.18.13.12.8.5.91 3.369.2 4.954 8.727.35.56.39.32.25.18.13.1.7.52.899 3.919.3 4.943 8.746.39.34.56.39.31.24.18.13.11.8.5.9 5.836.2 4.949 8.735 1.36.56.32.25.19.14.1.8.52.899 7.828 4.947 8.739.38.33.54.38.3.23.17.12.12.1 9.9 339 8.3 4.949 8.736.71.93.138.139.129.114.96.73.21.3.15.9 311 4.2 4.948 8.736 7.52.82.68.57 4.34.22.1.13.35.8 181.1 4.339 9.694.32.39.67.5 1.32.25.19.3.1 2.81 1.971.2 4.345 9.685.33 1.68.52 3.34.26.2.3. 2.81 2.944.3 4.348 9.68.32.68.52 3.34.27.21.1.2 5.8 3.2 4.34 9.691.33 1.68.53 3.34.27.21.1.2 4.8 3.936.2 4.339 9.692.34 1.69.53 4.35.28.22..3 6.81 5.97.1 4.345 9.684.32.67.52 2.32.26.2.2.1 3.81 7.851.2 4.35 9.677.32.39.67.52 1.3.25.19.3.1.799 319 8.1 4.334 9.74.25 6.85.81.71.59 9.38.1.17.1.799 3.383 4.3 4.338 9.696.16.29.62.52.27.22.13.14.17.15.61 188. 2.928 11.578.23.35.61 5.34.27.17.15.2.28.62 1.957.1 2.939 11.567.24.35.62 7.36.28.18.17.3..3.61 2.949.2 2.925 11.582.25.37.63 8.36.29.19.18.2.2.32.62 3.368.2 2.936 11.568.24.36.62 8.36.27.19.17.2.2.31.61 3.922.2 2.929 11.577.24.35.61 9.36.26.18.16.2.2.31.61 5.881 2.929 11.576.23.34.61.51.35.24.17.16.2.1.27.61 7.86.2 2.931 11.575.23.34.61.51.34.22.17.15.3.1.25.599 32 8.1 2.913 11.598.16.52.52.35.22.18.13.16.27.34.61 3.397 4. 2.929 11.577.2.14 6 2.23.9.7.3.18.2.6

Table 6. Continued (d) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 185.1 6.141 6.68.93.84.15.143.156 26.356 9.114.1 13 1.986.2 6.142 6.63.96.83.16.143.157 26.358 95.175.33 13 2.955.3 6.143 6.62.98.85.17.144.158 28.361 99 6.57 11 3.398 6.138 6.82.96.85.19.146.161 29.365.31 1.59 1 3.912 6.137 6.84.97.86.111.147.162 3.366.32 2.53 1 5.854.6 6.136 6.87.96.86.112.148.163 31.368 99.132.7 11 7.886.7 6.138 6.79.1.87.112.148.164 32.37 73.51.32 1 7.867.2 6.137 6.86.1.87.113.149.166 33.372 76.52.32 1 317 8.5 6.135 6.89 6.78.17.129.13 3.322.319 41.124 1.198 3.387 4 6.133 6.11.66.61.82.118.133 6.345.36 39.1.9 181.2 4.949 8.734.65.84.13.131.11.141.2.1.157.173.91 1.971.3 4.955 8.724.66.85.15.134.116.148.5.93.149.161.9 2.943.1 4.951 8.732.67.86.16.135.117.15.7.91.147.16.91 3.369.2 4.954 8.727.69.87.18.137.118.15.7.91.147.16.899 3.919.3 4.943 8.746.66.85.15.133.115.148.6.93.149.163.9 5.836.2 4.949 8.735.67.85.14.131.11.139.5.14.16.176.899 7.828 4.947 8.739.64.81.1.125.11.124.19.118.172.19.9 339 8.3 4.949 8.736.23.6.92.9.146.14.78.133.133.9 311 4.2 4.948 8.736.51.72.94.125.118.153.2.74.127.126.8 181.1 4.339 9.694.52.67.82.11.81.115.3.94.153.175.81 1.971.2 4.345 9.685.54.69.84.15.86.122.86.143.163.81 2.944.3 4.348 9.68.56.71.86.18.89.126.8.83.14.157.8 3.2 4.34 9.691.55.71.85.17.88.125.7.84.14.158.8 3.936.2 4.339 9.692.56.72.87.18.88.126.7.84.141.16.81 5.97.1 4.345 9.684.53.68.82.12.8.114.5.97.155.178.81 7.851.2 4.35 9.677.5.65.77.95.71.11.21.114.172.196.799 319 8.1 4.334 9.74.1.19.36.64.59.19.1.8.132.144.799 3.383 4.3 4.338 9.696.28 8.65.9.79.113.5.78.128.143.61 188. 2.928 11.578.34 7.57.74.54.89.7.86.143.166.62 1.957.1 2.939 11.567.37.5.61.78.59.96.1.76.13.146.61 2.949.2 2.925 11.582.38.52.62.81.63.11.72.124.137.62 3.368.2 2.936 11.568.38.52.62.8.62.11.3.73.124.139.61 3.922.2 2.929 11.577.37.52.61.79.61.1..75.125.144.61 5.881 2.929 11.576.34 9.57.75.55.91.11.88.139.168.61 7.86.2 2.931 11.575.32 7.54.71 8.82.23.12.154.187.599 32 8.1 2.913 11.598.28.6.7.35.26.77.18.82.12.136.61 3.397 4. 2.929 11.577.26.36.61 8.85.12.77.115.135 91

92 Table 6. Continued (e) θ = 18 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 12 185.1 6.141 6.68.18.52.73.76.74.76.99.126.153.167.175 13 1.986.2 6.142 6.63.18.52.75.79.76.77.99.125.152.166.176 13 2.955.3 6.143 6.62.19.52.76.8.77.78.11.125.151.166.178 11 3.398 6.138 6.82.21.52.76.81.77.79.13.127.153.168.181 1 3.912 6.137 6.84.22.52.77.82.78.8.15.128.153.169.182 1 5.854.6 6.136 6.87.22.52.77.82.76.8.15.128.153.169.183 11 7.886.7 6.138 6.79.23.5.77.82.76.8.16.127.152.168.184 1 7.867.2 6.137 6.86.25.51.78.84.78.81.17.129.153.17.185 1 317 8.5 6.135 6.89.184.138.13.8.55.23.3.68.1.127.14 1.198 3.387 4 6.133 6.11.77.52.3.21.9.15.58.93.128.164.19.9 181.2 4.949 8.734.5.54.52 3.36 3.5 4.39 3.5.91 1.971.3 4.955 8.724.52.55.52 3.37 4.51 5.39 3.5.9 2.943.1 4.951 8.732.5.54.52 4.37 4.52 5 4.51.91 3.369.2 4.954 8.727.52.55.53 4.38 5.52 6 1 4.52.899 3.919.3 4.943 8.746.5.54.52 4.37 4.52 5 4.51.9 5.836.2 4.949 8.735.54.56.55 5.39 6.53 6 1 4.51.899 7.828 4.947 8.739.5.53.52 3.37 4.51 4 2 9.9 339 8.3 4.949 8.736.39.75.92.94.95.14.17.88.67.56 8.9 311 4.2 4.948 8.736 2.6.65.58.53.6.64.54 5 3 6.8 181.1 4.339 9.694.38.53.56 8 4.5.56.5 7 7 9.81 1.971.2 4.345 9.685.54.56 7 4.5.57.51 7 8.51.81 2.944.3 4.348 9.68.55.57.5 6.52.59.53 9 9.52.8 3.2 4.34 9.691 1.55.57.5 5.52.58.52 9 9.52.8 3.936.2 4.339 9.692.56.58.51 6.52.59.53.5.5.52.81 5.97.1 4.345 9.684.39.55.57 9 5.51.56.52 8 7.5.81 7.851.2 4.35 9.677.39.55.56 9 5.51.55.5 7 6 7.799 319 8.1 4.334 9.74.1.32 1.39 1.5.54 7.39.31.25.799 3.383 4.3 4.338 9.696.12.36 1.34.34 1 6 2.38.34.34.61 188. 2.928 11.578.3 5 6.38.32.39 7 3 2.39.62 1.957.1 2.939 11.567.32 6 7.39.33 1 9 4 3 1 2.61 2.949.2 2.925 11.582.33 8 8.34 1 9 5 5 2 3.62 3.368.2 2.936 11.568.32 7 7.39.34 1 8 5 5 2 2.61 3.922.2 2.929 11.577.31 8 7.39.34 2 8 5 5 1 1.61 5.881 2.929 11.576.3 8 7.38.34 1 5 4 4.38.61 7.86.2 2.931 11.575.28 9 7.38.34 4 4 5.38.36.599 32 8.1 2.913 11.598.23.8.1.3.6.13.17.19.18.8.1.61 3.397 4. 2.929 11.577.25.23.15.17.22.25.28.29.21.16

Table 6. Continued (e) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.974.986 12 185.1 6.141 6.68.166.157.156.142.139.193 68.88 13 1.986.2 6.142 6.63.164.156.157.144.142.194 76.169 13 2.955.3 6.143 6.62.163.156.158.146.145.197 78 17 11 3.398 6.138 6.82.164.156.158.147.143.197 8 24 1 3.912 6.137 6.84.164.156.159.149.144.197 81 13 1 5.854.6 6.136 6.87.163.156.159.149.143.197 77.126 11 7.886.7 6.138 6.79.162.156.16.152.146.199 33.34 1 7.867.2 6.137 6.86.163.157.16.153.147 35.35 1 317 8.5 6.135 6.89.96.97.121.123.142.168 9.36 1.198 3.387 4 6.133 6.11.167.147.144.125.117.174 68 67.9 181.2 4.949 8.734.7.83.16.121.156.178.94.147.91 1.971.3 4.955 8.724.7.85.18.126.161.185.88.138.9 2.943.1 4.951 8.732.71.86.11.127.162.187.86.136.91 3.369.2 4.954 8.727.73.87.111.127.163.187.86.136.899 3.919.3 4.943 8.746.71.85.18.125.16.185.87.138.9 5.836.2 4.949 8.735.71.84.17.122.155.176.96.148.899 7.828 4.947 8.739.68.81.13.116.146.163.18.161.9 339 8.3 4.949 8.736 9.57.82.14.165 47.75.124.9 311 4.2 4.948 8.736.63.77.13.125.178 29.7.117.8 181.1 4.339 9.694.62.68.85.94.124.141.94.148.81 1.971.2 4.345 9.685.64.71.89.99.13.149.86.138.81 2.944.3 4.348 9.68.66.73.91.11.134.154.83.134.8 3.2 4.34 9.691.66.72.9.11.133.152.83.135.8 3.936.2 4.339 9.692.67.73.91.11.134.153.83.135.81 5.97.1 4.345 9.684.64.7.86.94.125.141.95.149.81 7.851.2 4.35 9.677.61.65.8.86.115.127.11.166.799 319 8.1 4.334 9.74.36.39.6.77.132.178.78.128.799 3.383 4.3 4.338 9.696.51.56.77.9.136.167.77.125.61 188. 2.928 11.578 8.5.66.71.12.116.86.138.62 1.957.1 2.939 11.567.51.54.7.76.18.125.76.124.61 2.949.2 2.925 11.582.54.56.72.79.111.129.72.119.62 3.368.2 2.936 11.568.55.56.71.77.112.129.71.12.61 3.922.2 2.929 11.577.56.56.71.77.111.128.73.121.61 5.881 2.929 11.576.55.54.67.7.15.119.85.137.61 7.86.2 2.931 11.575.54.51.64.64.97.18.97.154.599 32 8.1 2.913 11.598.24.21.37 6.13.134.77.125.61 3.397 4. 2.929 11.577 3.39.55.6.11.133.73.119 93

94 Table 6. Continued (f) θ = 225 at values of x L of M NPR α, deg q, psi p, psi.833.898.912.927.941.951.963.974.986.997 12 185.1 6.141 6.68 2.192.128.77.139 71 79.126.1.52 13 1.986.2 6.142 6.63 19.191.129.79.142 73.34.146.119.72 13 2.955.3 6.143 6.62 18.192.131.82.145 75.374.168.133.84 11 3.398 6.138 6.82 19.194.13.79.143 76.379.171.136.87 1 3.912 6.137 6.84 18.193.13.8.145 78.378.169.135.87 1 5.854.6 6.136 6.87 18.194.129.78.144 79.368.156.112.57 11 7.886.7 6.138 6.79 17.194.132.81.147 81 95.123.74.22 1 7.867.2 6.137 6.86 17.196.132.82.148 82 94.122.73.22 1 317 8.5 6.135 6.89.166.11.52.15 74 16 47 6.165 1.198 3.387 4 6.133 6.11 31 12.129.65.123 58.385.187.147.12.9 181.2 4.949 8.734.9.82.75.95.196 37.25.11.144.169.91 1.971.3 4.955 8.724.92.84.77.98 1 43.22.97.139.161.9 2.943.1 4.951 8.732.93.85.78.99 2 46.19.95.138.158.91 3.369.2 4.954 8.727.94.86.78.1 2 45.21.96.139.159.899 3.919.3 4.943 8.746.92.84.77.98 44.21.97.14.162.9 5.836.2 4.949 8.735.92.83.75.96.195 36.24.1.144.172.899 7.828 4.947 8.739.89.8.7.9.185 22.31.17.152.184.9 339 8.3 4.949 8.736.8.66.58.93 38 34.22.7.121.139.9 311 4.2 4.948 8.736.91.81.75.18 43.361.19.69.113.126.8 181.1 4.339 9.694.8.65.53.68.152.185 1.114.154.182.81 1.971.2 4.345 9.685.83.69.58.74.162.198.32.19.15.174.81 2.944.3 4.348 9.68.84.71.6.77.167 6.26.14.146.168.8 3.2 4.34 9.691.85.71.6.77.166 4.26.14.146.169.8 3.936.2 4.339 9.692.86.72.61.78.167 5.25.14.147.17.81 5.97.1 4.345 9.684.82.67.54.69.153.185.38.112.154.186.81 7.851.2 4.35 9.677.8.62 8.6.137.163.52.121.162.799 319 8.1 4.334 9.74.65 8.71.194 79.9.81.133.159.799 3.383 4.3 4.338 9.696.77.6.51.76.181 42.7.86.129.154.61 188. 2.928 11.578.68.53 2.56.139.171.3.116.162.182.62 1.957.1 2.939 11.567.72.57 8.64.149.186.19.15.152.165.61 2.949.2 2.925 11.582.74.59.5.67.155.191.13.1.147.158.62 3.368.2 2.936 11.568.76.6.51.68.154.19.13.1.147.16.61 3.922.2 2.929 11.577.76.6.51.68.152.187.15.11.149.165.61 5.881 2.929 11.576.75.57 6.62.14.171.26.11.159.188.61 7.86.2 2.931 11.575.74.54 2.55.126.152.121.17 6.599 32 8.1 2.913 11.598.56.35.28.58.161 2.1.93.147.167.61 3.397 4. 2.929 11.577.7 9.65.156 4.89.138.161

Table 6. Continued (g) θ = 24 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986 12 185.1 6.141 6.68.187.13.66.14.384.159.151.123 13 1.986.2 6.142 6.63.188.14.68.18.384.19.173.148 13 2.955.3 6.143 6.62.19.15.7.11.385 22.189.163 11 3.398 6.138 6.82.193.14.68.19.386 29.192.165 1 3.912 6.137 6.84.193.14.69.11.387 27.192.164 1 5.854.6 6.136 6.87.195.13.68.11.387 15.182.142 11 7.886.7 6.138 6.79.197.16.71.112.387.176.157.95 1 7.867.2 6.137 6.86.199.17.72.113.388.176.157.94 1 317 8.5 6.135 6.89.111.37.23.95.387.365 48 42 1.198 3.387 4 6.133 6.11 9.98.51.89.378 51.194.177.9 181.2 4.949 8.734.91.67.77.139 66.39.83.127.91 1.971.3 4.955 8.724.93.7.81.144 71.36.8.123.9 2.943.1 4.951 8.732.94.72.82.145 76.35.79.123.91 3.369.2 4.954 8.727.95.72.82.146 73.37.81.125.899 3.919.3 4.943 8.746.92.7.81.144 73.37.82.126.9 5.836.2 4.949 8.735.91.69.78.139 66.83.128.899 7.828 4.947 8.739.87.64.72.129 55 5.88.132.9 339 8.3 4.949 8.736.75.58.82.188 75.7.52.12.9 311 4.2 4.948 8.736.89.73.95.188 13.5 8.86.8 181.1 4.339 9.694.73 5 8.96 15.64.14.146.81 1.971.2 4.345 9.685.77.5.55.16 32.56.11.143.81 2.944.3 4.348 9.68.79.52.58.113 44.51.98.142.8 3.2 4.34 9.691.78.53.58.112 43.52.99.142.8 3.936.2 4.339 9.692.78.53.59.112 46.51.99.141.81 5.97.1 4.345 9.684.72 7.5.98 2.62.14.146.81 7.851.2 4.35 9.677.66.39.8.19.75.19.15.799 319 8.1 4.334 9.74.55.38.56.141.353.2.8.132.799 3.383 4.3 4.338 9.696.66 6.58.124 99.36.8.121.61 188. 2.928 11.578.58.32.38.92 29.59.126.166.62 1.957.1 2.939 11.567.62.39 6.14 5 8.12.159.61 2.949.2 2.925 11.582.63 1.5.17 58 3.116.155.62 3.368.2 2.936 11.568.62 2.51.18 59 4.116.154.61 3.922.2 2.929 11.577.6 2.5.16 56 6.118.156.61 5.881 2.929 11.576.55.37 3.94 36.59.125.163.61 7.86.2 2.931 11.575 9.32.34.8 1.74.134.171.599 32 8.1 2.913 11.598.3.25 1.119.318.37.12.161.61 3.397 4. 2.929 11.577 2.35 6.19 9 2.111.148 95

96 Table 6. Continued (h) θ = 255 at values of x L of M NPR α, deg q, psi p, psi.941.963.974.986.997 12 185.1 6.141 6.68.119.189.19.7.13 13 1.986.2 6.142 6.63.122 25.134.1 2 13 2.955.3 6.143 6.62.125 58.156.117.6 11 3.398 6.138 6.82.124 64.16.119.62 1 3.912 6.137 6.84.126 63.158.115.57 1 5.854.6 6.136 6.87.126 48.143.83.14 11 7.886.7 6.138 6.79.126.19.28 1 7.867.2 6.137 6.86.127.199.11.28 1 317 8.5 6.135 6.89.12.386 64.194.132 1.198 3.387 4 6.133 6.11.17 85.179.141.88.9 181.2 4.949 8.734.116.15.55.18.154.91 1.971.3 4.955 8.724.121.14.54.17.15.9 2.943.1 4.951 8.732.122.14.55.19.151.91 3.369.2 4.954 8.727.123.14.57.19.151.899 3.919.3 4.943 8.746.121.16.58.112.154.9 5.836.2 4.949 8.735.116.16.58.11.156.899 7.828 4.947 8.739.16.19.59.112.16.9 339 8.3 4.949 8.736.183 4.1.75.123.9 311 4.2 4.948 8.736.174 3.5.55.95.8 181.1 4.339 9.694.69.54.9.138.18.81 1.971.2 4.345 9.685.8 8.86.136.176.81 2.944.3 4.348 9.68.87 4.84.134.173.8 3.2 4.34 9.691.87 6.84.134.172.8 3.936.2 4.339 9.692.87 4.84.134.172.81 5.97.1 4.345 9.684.7.52.89.137.178.81 7.851.2 4.35 9.677.5.64.96.141.185.799 319 8.1 4.334 9.74.124.8.55.115.157.799 3.383 4.3 4.338 9.696.98.23.58.15.144.61 188. 2.928 11.578.75.7.119.164.192.62 1.957.1 2.939 11.567.9.62.115.156.178.61 2.949.2 2.925 11.582.94.58.112.153.173.62 3.368.2 2.936 11.568.94.58.112.153.172.61 3.922.2 2.929 11.577.92.61.115.154.174.61 5.881 2.929 11.576.77.71.122.161.188.61 7.86.2 2.931 11.575.6.82.126.164.197.599 32 8.1 2.913 11.598.19.57.12.156.174.61 3.397 4. 2.929 11.577.94.56.114.144.163

Table 6. Continued (i) θ = 27 at values of x L of M NPR α, deg q, psi p, psi.951.963.974.986 12 185.1 6.141 6.68 75.123.12.82 13 1.986.2 6.142 6.63.311.145.125.17 13 2.955.3 6.143 6.62.337.167.146.122 11 3.398 6.138 6.82.34.17.15.125 1 3.912 6.137 6.84.34.169.148.123 1 5.854.6 6.136 6.87.328.158.136.98 11 7.886.7 6.138 6.79 77.129.111.6 1 7.867.2 6.137 6.86 77.128.11.6 1 317 8.5 6.135 6.89.387 51 9.196 1.198 3.387 4 6.133 6.11.33.183.164.143.9 181.2 4.949 8.734.3.8.52.13.91 1.971.3 4.955 8.724.33.8.53.13.9 2.943.1 4.951 8.732.34.9.57.17.91 3.369.2 4.954 8.727.35.1.57.18.899 3.919.3 4.943 8.746.34.11.59.11.9 5.836.2 4.949 8.735.31.11.57.16.899 7.828 4.947 8.739.27.1.53.13.9 339 8.3 4.949 8.736.113.67.1.63.9 311 4.2 4.948 8.736.97.72.29.3.8 181.1 4.339 9.694.15 8.89.134.81 1.971.2 4.345 9.685.5 2.84.132.81 2.944.3 4.348 9.68.5.39.82.131.8 3.2 4.34 9.691.6.83.131.8 3.936.2 4.339 9.692.37.82.13.81 5.97.1 4.345 9.684.13 6.88.133.81 7.851.2 4.35 9.677.31.58.95.136.799 319 8.1 4.334 9.74 1.7.53.113.799 3.383 4.3 4.338 9.696.13.13.56.12.61 188. 2.928 11.578.25.67.12.161.62 1.957.1 2.939 11.567 1.6.116.156.61 2.949.2 2.925 11.582 8.56.114.154.62 3.368.2 2.936 11.568 9.55.115.153.61 3.922.2 2.929 11.577 8.57.117.154.61 5.881 2.929 11.576.31.64.124.159.61 7.86.2 2.931 11.575.8.72.126.162.599 32 8.1 2.913 11.598.7 6.121.156.61 3.397 4. 2.929 11.577.51 6.112.143 97

98 Table 6. Continued (j) θ = 285 at values of x L of M NPR α, deg q, psi p, psi.927.941.951.963.974.986.997 12 185.1 6.141 6.68.194 59.171.111.136.143.1 13 1.986.2 6.142 6.63.194 6 11.132.161.17.119 13 2.955.3 6.143 6.62.195 63 58.152.186.19.126 11 3.398 6.138 6.82.199 66 65.156.19.194.128 1 3.912 6.137 6.84.199 67 66.155.189.195.129 1 5.854.6 6.136 6.87 2 69 38.145.178.182.115 11 7.886.7 6.138 6.79 1 67.179.119.153.152.82 1 7.867.2 6.137 6.86 2 67.178.117.152.152.82 1 317 8.5 6.135 6.89 61.39 66 15 49 67 25 1.198 3.387 4 6.133 6.11 63.317 35.168 4 1.151.9 181.2 4.949 8.734.84.62.28.13.53.18.167.91 1.971.3 4.955 8.724.88.68.3.11.53.17.166.9 2.943.1 4.951 8.732.94.68.32.12.56.11.166.91 3.369.2 4.954 8.727.97.71.29.15.58.111.166.899 3.919.3 4.943 8.746.94.67.3.14.59.114.169.9 5.836.2 4.949 8.735.89.65.27.15.56.111.167.899 7.828 4.947 8.739.77.58.24.14.53.19.167.9 339 8.3 4.949 8.736.15.147.113.63.8.7.142.9 311 4.2 4.948 8.736.18.113.1.72.32.37.15.8 181.1 4.339 9.694.5.39.11.52.87.134.186.81 1.971.2 4.345 9.685.59.51.25 5.83.132.184.81 2.944.3 4.348 9.68.67.64.36 1.8.131.182.8 3.2 4.34 9.691.69.65.38 1.81.13.181.8 3.936.2 4.339 9.692.68.63.39.81.132.181.81 5.97.1 4.345 9.684.51 1.16.5.87.135.185.81 7.851.2 4.35 9.677.29.11.14.6.94.138.188.799 319 8.1 4.334 9.74.75.55.5.118.18.799 3.383 4.3 4.338 9.696 4.28.14.14.53.15.161.61 188. 2.928 11.578.67.84.76.65.112.161.198.62 1.957.1 2.939 11.567.78.99.1.57.18.155.186.61 2.949.2 2.925 11.582.83.16.18.54.15.152.181.62 3.368.2 2.936 11.568.82.14.18.53.16.153.18.61 3.922.2 2.929 11.577.81.12.14.54.18.155.181.61 5.881 2.929 11.576.7.86.8.62.114.163.192.61 7.86.2 2.931 11.575.55.62.51.72.121.171 1.599 32 8.1 2.913 11.598.1.118.125 4.114.167.186.61 3.397 4. 2.929 11.577.81.89.78.37.99.153.173

Table 6. Continued (k) θ = 3 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.997 12 185.1 6.141 6.68 29 42 3 49 8.85.58.9.15 13 1.986.2 6.142 6.63 29 41 3 49.39.18.82.36.7 13 2.955.3 6.143 6.62 31 43 5 5.32.133.95.53.21 11 3.398 6.138 6.82 34 46 8 54.324.136.96.56.22 1 3.912 6.137 6.84 35 46 9 54.324.133.92.53.15 1 5.854.6 6.136 6.87 37 48 12 57.36.117.64.16.2 11 7.886.7 6.138 6.79 37 46 12 56 67.89.3.23 7 1 7.867.2 6.137 6.86 38 47 13 57 68.89.3.22 8 1 317 8.5 6.135 6.89.363.351 78 95 6 57.173.17.53 1.198 3.387 4 6.133 6.11.318.313 73.39.39.158.121.73.38.9 181.2 4.949 8.734 3.116.83.66.15.55.14.16.127.91 1.971.3 4.955 8.724 55.125.89.7.14.55.14.158.118.9 2.943.1 4.951 8.732.32.143.98.73.14.57.16.157.119.91 3.369.2 4.954 8.727.312.148.1.75.15.58.15.156.119.899 3.919.3 4.943 8.746.37.144.97.73.17.6.18.159.123.9 5.836.2 4.949 8.735 62.128.89.69.15.56.15.161.129.899 7.828 4.947 8.739.196.11.75.58.17.56.14.164.136.9 339 8.3 4.949 8.736.167.142.142.139.52.2.69.143.96.9 311 4.2 4.948 8.736.137.14.12.18.58.2.37.17.9.8 181.1 4.339 9.694.186.12.67.7.64.93.135.179.148.81 1.971.2 4.345 9.685.191.19.75.82.59.9.133.176.136.81 2.944.3 4.348 9.68.197.115.83.92.55.88.131.172.134.8 3.2 4.34 9.691.197.116.84.93.56.89.131.172.134.8 3.936.2 4.339 9.692.197.116.82.91.54.87.13.173.136.81 5.97.1 4.345 9.684.186.14.67.71.63.92.132.179.15.81 7.851.2 4.35 9.677.171.87 6 4.71.97.134.186.159.799 319 8.1 4.334 9.74.172.111.83.82.1.52.17.172.116.799 3.383 4.3 4.338 9.696.178.98.59.59.27.56.98.155.117.61 188. 2.928 11.578.152.94.79.98.73.123.158.189.148.62 1.957.1 2.939 11.567.158.12.88.112.63.117.151.177.123.61 2.949.2 2.925 11.582.161.15.92.117.58.113.147.17.116.62 3.368.2 2.936 11.568.161.15.91.117.57.112.145.171.117.61 3.922.2 2.929 11.577.159.15.89.115.59.113.145.175.123.61 5.881 2.929 11.576.152.98.77.1.72.119.152.191.144.61 7.86.2 2.931 11.575.143.88.64.8.85.122.154 3.157.599 32 8.1 2.913 11.598 2.137.18.137.54.19.139.181.17.61 3.397 4. 2.929 11.577.172.116.88.16.51.11.128.173.11 99

1 Table 6. Continued (l) θ = 315 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 12 185.1 6.141 6.68.177.191 42 26 97.35.12.14.118.84 13 1.986.2 6.142 6.63.176.19 41 25 95 2.146.171.146.13 13 2.955.3 6.143 6.62.177.19 42 27 95 18.168.195.164.115 11 3.398 6.138 6.82.18.191 44 29 98 22.171.197.167.12 1 3.912 6.137 6.84.18.19 43 28 98 23.17.195.17.122 1 5.854.6 6.136 6.87.182.191 45 3 99 18.16.182.152.13 11 7.886.7 6.138 6.79.181.188 43 29 97.352.129.143.112.67 1 7.867.2 6.137 6.86.182.188 44 29 98.353.13.143.113.67 1 317 8.5 6.135 6.89.312.32.353.324.355 79 4 59 34 1 1.198 3.387 4 6.133 6.11 68 78.316 89.355.386.188 18.18.142.9 181.2 4.949 8.734 62.329.165.92.73 3.28.61.12.154.91 1.971.3 4.955 8.724 68.349.179.96.76.51.29.61.12.152.9 2.943.1 4.951 8.732 8.386.1.8.59.34.65.15.152.91 3.369.2 4.954 8.727 8.393 8.13.82.58.36.67.16.153.899 3.919.3 4.943 8.746 84.391.199.99.8.6.36.69.17.154.9 5.836.2 4.949 8.735 74.357.179.95.75 9.33.65.18.157.899 7.828 4.947 8.739 5 98.143.85.65.33.28.6.18.162.9 339 8.3 4.949 8.736 83 61.189.149.133.94 2.3.73.139.9 311 4.2 4.948 8.736.396 25.145.119.18.83.5.12.53.117.8 181.1 4.339 9.694 67.186.113.84.96.116.63.11.135.175.81 1.971.2 4.345 9.685 73.19.118.91.15.132.53.15.131.171.81 2.944.3 4.348 9.68 78.196.123.97.113.143 6.13.13.166.8 3.2 4.34 9.691 78.196.123.98.114.144 6.13.13.166.8 3.936.2 4.339 9.692 8.198.125.97.114.144 5.12.131.167.81 5.97.1 4.345 9.684 69.188.114.86.97.121.6.19.137.178.81 7.851.2 4.35 9.677 58.177.11.7.75.87.78.112.142.187.799 319 8.1 4.334 9.74.324.196.125.14.114.132.34.72.115.166.799 3.383 4.3 4.338 9.696 87.192.114.86.9.96 1.7.16.151.61 188. 2.928 11.578.181.143.99.92.11.143 3.119.151.183.62 1.957.1 2.939 11.567.186.149.16.1.122.158.3.19.141.169.61 2.949.2 2.925 11.582.189.153.11.14.128.165.24.14.137.161.62 3.368.2 2.936 11.568.189.154.11.14.127.165.24.14.139.163.61 3.922.2 2.929 11.577.189.156.11.14.126.162.26.15.141.167.61 5.881 2.929 11.576.184.152.15.96.115.146.39.115.155.187.61 7.86.2 2.931 11.575.18.147.96.85.11.125.55.126.166 4.599 32 8.1 2.913 11.598 5 11.146.133.158.15.14.151.176.61 3.397 4. 2.929 11.577 13.183.127.113.127.147.27.97.139.166

Table 6. Continued (m) Top interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.898.941 12 185.1 6.141 6.68.39.34 18 61 13 1.986.2 6.142 6.63.39.32 18 64 13 2.955.3 6.143 6.62.33 2 67 11 3.398 6.138 6.82 2.34 23 7 1 3.912 6.137 6.84 3.34 24 7 1 5.854.6 6.136 6.87 5.34 27 71 11 7.886.7 6.138 6.79 6.34 26 66 1 7.867.2 6.137 6.86 6.34 27 66 1 317 8.5 6.135 6.89.178.163.351 97 1.198 3.387 4 6.133 6.11.128.122.39.37.9 181.2 4.949 8.734 4.19 29.6.91 1.971.3 4.955 8.724 6.19 52.65.9 2.943.1 4.951 8.732 5.2 95.68.91 3.369.2 4.954 8.727 5.2.34.69.899 3.919.3 4.943 8.746 6.2.3.67.9 5.836.2 4.949 8.735 6.21 57.63.899 7.828 4.947 8.739 4.19.195.53.9 339 8.3 4.949 8.736.96.73.17.129.9 311 4.2 4.948 8.736 9.31.141.98.8 181.1 4.339 9.694 1.3.182.17.81 1.971.2 4.345 9.685 2.32.188.3.81 2.944.3 4.348 9.68 4.33.193 2.8 3.2 4.34 9.691 4.33.194 3.8 3.936.2 4.339 9.692 5.34.194 1.81 5.97.1 4.345 9.684 4.32.183.2.81 7.851.2 4.35 9.677 1.32.168.7.799 319 8.1 4.334 9.74.9.72.174.56.799 3.383 4.3 4.338 9.696.58 9.176.22.61 188. 2.928 11.578.38.33.148.63.62 1.957.1 2.939 11.567.38.33.154.8.61 2.949.2 2.925 11.582.38.36.157.86.62 3.368.2 2.936 11.568.38.35.156.86.61 3.922.2 2.929 11.577.37.36.155.84.61 5.881 2.929 11.576.36.35.147.67.61 7.86.2 2.931 11.575.34.35.139 4.599 32 8.1 2.913 11.598.73.73.196.99.61 3.397 4. 2.929 11.577.5.52.167.73 11

12 Table 6. Concluded (n) Bottom interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.869.883.941 12 185.1 6.141 6.68.2 4.67.8.87.9 22 26.132 13 1.986.2 6.142 6.63.2 4.68.82.9.91 21 25.136 13 2.955.3 6.143 6.62.2 5.68.82.91.93 2 26.139 11 3.398 6.138 6.82.21 5.69.82.92.94 22 28.138 1 3.912 6.137 6.84.21 5.69.82.93.96 22 28.139 1 5.854.6 6.136 6.87.19 3.67.8.92.96 22 28.138 11 7.886.7 6.138 6.79.17 1.66.79.92.97 21 28.137 1 7.867.2 6.137 6.86.19 2.67.8.94.99 22 29.138 1 317 8.5 6.135 6.89.183.148.114.89.6.22.177.171.117 1.198 3.387 4 6.133 6.11.7.53.38.3.1.21 24 42.125.9 181.2 4.949 8.734.54.55.53 9.56.77.8.87.16.91 1.971.3 4.955 8.724.55.56.54.5.56.78.81.89.19.9 2.943.1 4.951 8.732.54.56.54.5.57.78.82.9.111.91 3.369.2 4.954 8.727.56.57.54.5.57.79.84.91.112.899 3.919.3 4.943 8.746.54.56.53.5.57.79.81.89.11.9 5.836.2 4.949 8.735.59.59.56.52.58.79.81.88.16.899 7.828 4.947 8.739.54.56.53.51.57.77.79.86.96.9 339 8.3 4.949 8.736.36.7.86.93.15.134.74.75.179.9 311 4.2 4.948 8.736 3.6.63.62.69.93.79.86.167.8 181.1 4.339 9.694 1.53.56.55.64.84.74.76.57.81 1.971.2 4.345 9.685 1.52.56.56.65.84.77.79.69.81 2.944.3 4.348 9.68 2.55.58.57.66.86.79.81.77.8 3.2 4.34 9.691 2.54.58.57.66.85.78.81.77.8 3.936.2 4.339 9.692 3.56.59.59.67.86.8.81.77.81 5.97.1 4.345 9.684 3.54.58.58.66.84.77.77.59.81 7.851.2 4.35 9.677 3.54.58.57.64.82.74.74.38.799 319 8.1 4.334 9.74.3.27.38 3.53.77.57.59.117.799 3.383 4.3 4.338 9.696.16.35 3.52.73.67.69.87.61 188. 2.928 11.578.31 3 8 7.56.75.64.63.69.62 1.957.1 2.939 11.567.31 4 9 9.57.76.68.67.84.61 2.949.2 2.925 11.582.33 5.5 9.58.77.69.69.89.62 3.368.2 2.936 11.568.32 6.5.5.57.77.7.7.9.61 3.922.2 2.929 11.577.33 6.51.51.57.75.7.7.88.61 5.881 2.929 11.576.33 7.51.5.55.73.67.66.73.61 7.86.2 2.931 11.575.34 8.52.52.55.72.67.64.54.599 32 8.1 2.913 11.598.18..8.14.17 2 3.18.61 3.397 4. 2.929 11.577.5.21.26.31.32.51.57.58.9

Table 7. Static Pressure Coefficients of Afterbody Surface With Horizontal Tail in Aft Position and Vertical Tail in Aft Position (a) θ = at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 11 159.1 6.135 6.78.51.74.79.75 6.65.92.12.126.86.69 11 1.985.2 6.136 6.74.51.74.79.76 7.65.92.12.126.86.68 11 2.96. 6.136 6.76.52.73.8.77 9.66.93.13.127.86.71 11 2.938.1 6.135 6.76.53.74.81.79.5.66.93.13.127.86.71 11 342.1 6.136 6.76.53.73.81.79.5.67.93.13.127.87.72 11 3.913.1 6.136 6.74.55.73.81.81.52.68.94.14.128.88.74 12 5.876.3 6.138 6.71.56.73.82.83.54.69.95.15.128.88.74 11 7.896 6.137 6.75.58.74.83.85.56.71.96.17.129.89.76 1 327 8.5 6.132 6.84.197 15 12.193.154.151.138.121.12.94.143 1 313 4. 6.133 6.83.133.151.15.138.18.118.134.137.147.122.149.9 18. 4.947 8.726 4.33.27.21.1.12.2.31 6.16.82.899 1.971.2 4.943 8.732 7.36.29.23.2.13.3.29 4.14.85.9 2.955 4.95 8.721.5.39.31.24.3.14.29 4.15.84.91 3.389.1 4.955 8.713 6.35.27.21..12.2.3 6.16.81.92 3.929. 4.957 8.79 6.36.28.21..11..31 7.17.81.91 5.88. 4.952 8.715.5.38.3.23.1.12.2.3 6.17.81.91 7.835.2 4.952 8.717 7.37.29.22.1.12.2.3 6.16.82.9 331 8.3 4.95 8.723.127.129.131.126.99.13.78.33.11 2.145.92 3.386 4. 4.959 8.77.54.52.5 7.27.36.24.1.28.5.19.8 174.1 4.336 9.687 1 3 2.39.2.35.32.9.8.56.164.82 1.966.2 4.351 9.664 1 2.38.19.35.32.9.8.55.165.82 2.94.3 4.35 9.665 1 2.38.19.35.31.9.8.57.166.82 3.399 4.352 9.662 2 3 1.38.18.34.31.9.8.56.166.8 3.94.2 4.34 9.681.39 1.39.37.18.34.32.9.8.57.166.82 5.884.3 4.348 9.668 3 4 1.38.18.34.32.9.8.56.164.81 7.775.1 4.346 9.671 1 4 1.37.17.34.32.8.7.54.161.8 34 8.3 4.34 9.682.14.16.1.93.68.82.76.52.59.126 5.8 3 4.2 4.335 9.687.64.64.58.52.33 7 5.25.33.94 12.61 171.1 2.923 11.573.31 3 3.37.19 5.28.37.87.17.6 1.967. 2.919 11.579.31 2 2.35.18.39 4.28.38.88.172.61 2.956.1 2.929 11.566.31 3 3.36.19 5.3.9.175.62 3.396.2 2.929 11.567.34 6 5.38.2 2 7.31 1.92.176.61 3.957.2 2.928 11.567.33 5 5.38.2 1 6.3 1.91.175.63 5.94.1 2.941 11.553.32 6 4.36.19 5.29.39.89.172.62 7.831.2 2.932 11.564.32 8 5.37.19 5.29.38.85.167.6 3.393 8.1 2.921 11.58.83.96.87.76.54.79.87.72.96.165 58.62 33 4.2 2.934 11.561.56.69.63.51.35.57.65.51.7.133 19 13

14 Table 7. Continued (a) Concluded at values of x L of M NPR α, deg q, psi p, psi.869.883.898.912.927.941.951.963.974 11 159.1 6.135 6.78.133.153.163 5 67.311.355 99 93 11 1.985.2 6.136 6.74.133.153.163 4 67.311.355.5 35 11 2.96. 6.136 6.76.137.156.166 4 68.313.357.52 71 11 2.938.1 6.135 6.76.137.155.166 4 68.313.358.52 71 11 342.1 6.136 6.76.138.156.168 4 69.315.359.53 74 11 3.913.1 6.136 6.74.141.159.171 4 7.318.361.53 74 12 5.876.3 6.138 6.71.142.159.172 4 7.319.362.53.349 11 7.896 6.137 6.75.144.161.175 5 72.322.365.52 4 1 327 8.5 6.132 6.84.17.199 18 62.331.395 3.524 84 1 313 4. 6.133 6.83.192 24 37 7.335.388 1.544.312.9 18. 4.947 8.726.167 33.311 1 64 8.118.39.1.899 1.971.2 4.943 8.732.17 35.314 13 79 31.127 7.1.9 2.955 4.95 8.721.168 33.312 12 88 57.135.55.9.91 3.389.1 4.955 8.713.165 31.31 9 88 61.137.55.9.92 3.929. 4.957 8.79.165 31.39 9 88 6.137.54.7.91 5.88. 4.952 8.715.166 32.31 9 82 36.127 4.91 7.835.2 4.952 8.717.166 32.31 9 57.194.11.27.23.9 331 8.3 4.95 8.723 34.37.378 7.391.16.95.61.33.92 3.386 4. 4.959 8.77.198 67.336 42 83 19.124.66.22.8 174.1 4.336 9.687 45.37.353.362 95.195.18.14.59.82 1.966.2 4.351 9.664 48.312.363.377.37 6.192.23.51.82 2.94.3 4.35 9.665 5.316.369.385.313 11.199.29 5.82 3.399 4.352 9.662 5.316.37.387.314 12.199.29 5.8 3.94.2 4.34 9.681 49.315.367.384.315 13.199.28 7.82 5.884.3 4.348 9.668 46.38.356.367 96.196.181.16.56.81 7.775.1 4.346 9.671 39.3.34.347 77.177.16.1.7.8 34 8.3 4.34 9.682.339 2 26.383 78.177.137.8 3 4.2 4.335 9.687 96.359.397.386 97.196.174.35.24.61 171.1 2.923 11.573 9 42 49 67 43.189.19.33.6.6 1.967. 2.919 11.579 13 46 56 75 52 3 5 9.61 2.956.1 2.929 11.566 15 49 59 8 58 5 9.51 3.62 3.396.2 2.929 11.567 17 51 61 83 59 7 1.51 2.61 3.957.2 2.928 11.567 15 5 6 81 58 5 7.5 3.63 5.94.1 2.941 11.553 1 44 52 73 47.192.193.37.56.62 7.831.2 2.932 11.564 3 37 42 63 35.178.177.22.69.6 3.393 8.1 2.921 11.58 93.321.312.321 74 3.182.51.25.62 33 4.2 2.934 11.561 53 85 84.34 67 5.196.52.34

Table 7. Continued (b) θ = 45 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.883.912.941.951.963.974.997 11 159.1 6.135 6.78.51.1.12.3.61.96 1. 1. 21.351.315 78.64 11 1.985.2 6.136 6.74.5.1.12.3.6.96 1. 1. 21.378.344.34.82 11 2.96. 6.136 6.76.51..11.3.61.96 1. 1. 23 5.38.321.96 11 2.938.1 6.135 6.76.53.1.11.3.61.96 1. 1. 23 4.379.319.96 11 342.1 6.136 6.76.52..12.29.6.96 1. 1. 24 7.382.322.96 11 3.913.1 6.136 6.74.53.1.11.29.6.97 1. 1. 25 6.379.32.93 12 5.876.3 6.138 6.71.55.3.1.3.61.97 1. 1. 24.36.321 91.62 11 7.896 6.137 6.75.56.1.3.62.98 1. 1. 19.34 84 57.3 1 327 8.5 6.132 6.84.176.85.88.18.125.128 1. 1. 91 45.336 98.118 1 313 4. 6.133 6.83.116 2 7.78.11.138 1. 1. 44.336.335.332.113.9 18. 4.947 8.726.3.17.1.8.9 1. 1..93.88.129.12.117.899 1.971.2 4.943 8.732.1.18.2.8.8 1. 1..1.95.137.112.18.9 2.955 4.95 8.721.5.16.1.9.5.8 1. 1..112.15.148.118.14.91 3.389.1 4.955 8.713.18.2.7.3.9 1. 1..18.13.148.12.14.92 3.929. 4.957 8.79.2.18.2.7.3.1 1. 1..111.14.147.119.15.91 5.88. 4.952 8.715.3.19.2.7.3.9 1. 1..12.96.14.111.117.91 7.835.2 4.952 8.717.16.1.8.9 1. 1..83.8.122.96.128.9 331 8.3 4.95 8.723.86.75.111.131.117.89 1. 1..1.11.14.125.97.92 3.386 4. 4.959 8.77.5.24.39.34.18 1. 1..116.114.161.132.98.8 174.1 4.336 9.687.3.6.16.25.21.11 1. 1..87.57.14.62.135.82 1.966.2 4.351 9.664.2.7.16.26.21.11 1. 1..94.67.113.69.125.82 2.94.3 4.35 9.665.3.7.16.26.21.1 1. 1..12.74.122.75.122.82 3.399 4.352 9.662.3.6.16.26.21.1 1. 1..12.74.121.76.122.8 3.94.2 4.34 9.681.3.6.17.26.21.11 1. 1..13.73.121.76.124.82 5.884.3 4.348 9.668.2.7.17.26.21.11 1. 1..91.61.11.67.135.81 7.775.1 4.346 9.671.2.7.16.26.21.1 1. 1..74 7.96.55.145.8 34 8.3 4.34 9.682.57 6.72.82.73.57 1. 1..9.84.135.17.112.8 3 4.2 4.335 9.687.11.1.29 1.34.22 1. 1..89.83.139.111.116.61 171.1 2.923 11.573.3.7.19.28.22.1 1. 1..74.64.89.21.14.6 1.967. 2.919 11.579.8.18.27.21.1 1. 1..88.75.99.28.117.61 2.956.1 2.929 11.566.7.19.28.22.11 1. 1..93.81.14.33.113.62 3.396.2 2.929 11.567.3.6.2.29.23.12 1. 1..94.81.17.34.113.61 3.957.2 2.928 11.567.7.19.28.22.1 1. 1..92.8.17.35.117.63 5.94.1 2.941 11.553.7.19.29.23.11 1. 1..8.69.95.26.136.62 7.831.2 2.932 11.564.2.5.22.31.23.12 1. 1..66.57.87.21.149.6 3.393 8.1 2.921 11.58.28.21 9.58.5.39 1. 1..87.72.128.83.17.62 33 4.2 2.934 11.561..3.28.39.32.2 1. 1..86.73.123.83.11 15

16 Table 7. Continued (c) θ = 9 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.825.951.963.974.986.997 11 159.1 6.135 6.78.55.6.33.64.14.14.147.121 72 91.34 3.15 11 1.985.2 6.136 6.74.54.6.33.64.14.13.146.124.35.33.326 12.115 11 2.96. 6.136 6.76.56.7.31.66.15.14.146.126.338.37.347 6.112 11 2.938.1 6.135 6.76.54.6.31.66.16.14.146.125.337.369.346 5.112 11 342.1 6.136 6.76.55.6.31.66.16.15.147.128.339.372.349 6.11 11 3.913.1 6.136 6.74.56.6.29.68.17.16.147.13.335.37.349 8.18 12 5.876.3 6.138 6.71.56.6.28.68.16.16.146.13 77.32.318 17.18 11 7.896 6.137 6.75.58.7.26.69.17.17.147.131 2 51 81.199.95 1 327 8.5 6.132 6.84.95.59.2.77.112.64.86.131.377.373.321 21.141 1 313 4. 6.133 6.83.39.11.12.78.128.18.138.148.31.319.332 42.156.9 18. 4.947 8.726.19 7.16.2.5.124.95.93.81.37.137.899 1.971.2 4.943 8.732.3.18 7.16.3.5.123.12.1.9.29.131.9 2.955 4.95 8.721.1.17.2 9.17.3.123.19.19.96.24.125.91 3.389.1 4.955 8.713.2.18 6.16.2.5.124.111.11.98.23.124.92 3.929. 4.957 8.79.3.19.5 5.14.1.6.124.111.11.98.25.124.91 5.88. 4.952 8.715.3.18 6.15.2.5.124.13.12.89.32.132.91 7.835.2 4.952 8.717.2.18 6.15.2.5.124.9.87.76 2.142.9 331 8.3 4.95 8.723.63.68.12 17.134.11.89.94.77.92.14.18.95.92 3.386 4. 4.959 8.77.11.24.9 5.25.19.121.96.1.1.6.112.8 174.1 4.336 9.687..3.13.61.32.18.13.14.85.86 8.8.159.82 1.966.2 4.351 9.664..2.13.61.31.18.12.14.93.95.55.75.155.82 2.94.3 4.35 9.665.1.1.13.61.32.18.13.14.97.12.6.71.15.82 3.399 4.352 9.662..2.12.6.31.18.14.14.98.12.6.71.149.8 3.94.2 4.34 9.681..1.13.61.32.19.14.13.98.13.6.72.15.82 5.884.3 4.348 9.668.1.1.13.61.31.18.14.14.89.89.51.77.157.81 7.775.1 4.346 9.671.2..13.61.31.17.13.14.78.76.86.164.8 34 8.3 4.34 9.682.14.29.5.124.74.53.53.97.72.94.81.32.127.8 3 4.2 4.335 9.687.7..14.67.33.19.17.14.87.11.84 1.136.61 171.1 2.923 11.573.3.5.9 8.25.15.1.94.83.95.15.114.168.6 1.967. 2.919 11.579.9 7.25.13.9.95.91.17.23.111.159.61 2.956.1 2.929 11.566.5.9 8.25.14.1.94.98.115.27.15.152.62 3.396.2 2.929 11.567.1.7.11 9.27.15.12.92.98.116.29.15.151.61 3.957.2 2.928 11.567.3.6.9 7.25.13.1.93.98.116.28.16.152.63 5.94.1 2.941 11.553.3.6.9 7.25.14.11.92.9.13.2.111.162.62 7.831.2 2.932 11.564.1.8.1 8.26.14.12.91.83.89.14.116.168.6 3.393 8.1 2.921 11.58.17.6.11.66.35.2.25.95.83.113.55.89.141.62 33 4.2 2.934 11.561.16.1.1 1.2.8.9.94.95.118.55.89.145

Table 7. Continued (d) θ = 135 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.869 11 159.1 6.135 6.78.68.8.82.7.77.18.116.158.162.144.99 11 1.985.2 6.136 6.74.68.81.82.69.77.18.116.158.162.146.1 11 2.96. 6.136 6.76.71.83.84.69.78.11.117.16.162.146.12 11 2.938.1 6.135 6.76.7.83.84.68.78.11.117.159.162.147.12 11 342.1 6.136 6.76.71.84.84.68.79.111.118.16.162.147.13 11 3.913.1 6.136 6.74.73.85.86.67.8.113.119.162.163.147.15 12 5.876.3 6.138 6.71.72.85.87.66.8.114.119.162.163.148.16 11 7.896 6.137 6.75.73.85.86.65.81.115.119.162.164.148.17 1 327 8.5 6.132 6.84.143.98.53.1.39.72.72.126.133.12.25 1 313 4. 6.133 6.83.53.33.3.34.52.79.95.157.172.177.75.9 18. 4.947 8.726 3.38.5 5.34.24.13.1.26.22 4.899 1.971.2 4.943 8.732 5.52 6.36.26.14.2.25.21 6.9 2.955 4.95 8.721 6 1.52 7.37.27.15.3.24.2 8.91 3.389.1 4.955 8.713 5.39.51 5.35.25.13.1.26.22 6.92 3.929. 4.957 8.79 3.38 9 4.34.23.12..27.23 6.91 5.88. 4.952 8.715 5.39.5 5.35.25.13.1.26.22 6.91 7.835.2 4.952 8.717 5.39 9 4.34.24.13.1.26.23 4.9 331 8.3 4.95 8.723.77.11.136.154.145.128.14.72.13.15.6.92 3.386 4. 4.959 8.77.53.58.77.77.64 9.34.14.23.27.29.8 174.1 4.336 9.687.32 1.57.55 4.33.26.17.9.6 4.82 1.966.2 4.351 9.664.31 1.57.56 4.33.25.16.9.7 4.82 2.94.3 4.35 9.665.31 1.57.56 4.32.25.16.9.6 4.82 3.399 4.352 9.662.32 1.58.57 5.33.25.16.8.6 5.8 3.94.2 4.34 9.681.32 2.58.57 5.33.26.17.7.5 5.82 5.884.3 4.348 9.668.32 1.58.56 4.31.25.16.8.6 4.81 7.775.1 4.346 9.671.33 2.58.57 4.31.25.16.9.6 3.8 34 8.3 4.34 9.682.26 9.77.88.78.64.54.39.24.13.8 3 4.2 4.335 9.687.17.33.53.58 5.31.25.14.18.24.14.61 171.1 2.923 11.573.21.34 7.54.35.19.18.13.6.27.6 1.967. 2.919 11.579.2.35 8.55.35.19.19.14.5.2.28.61 2.956.1 2.929 11.566.2.34 9.55.36.2.19.15.1.28.62 3.396.2 2.929 11.567.21.36.5.57.38.2.21.16.3..3.61 3.957.2 2.928 11.567.21.35.5.57.37.2.2.15..29.63 5.94.1 2.941 11.553.2.34 8.57.36.19.19.14.5.1.28.62 7.831.2 2.932 11.564.21.35 9.58.37.18.2.15.1.27.6 3.393 8.1 2.921 11.58.2 2.63 2.23.25.18.12.28.34.62 33 4.2 2.934 11.561.1.18.36.53.3.1.14.7.17.21 17

18 Table 7. Continued (d) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 11 159.1 6.135 6.78.92.84.18.147.163 33.358 54.175.92 11 1.985.2 6.136 6.74.94.84.18.147.164 34.371 89 19.121 11 2.96. 6.136 6.76.95.85.11.149.165 35.377.35 36.14 11 2.938.1 6.135 6.76.95.85.11.148.165 34.377.35 36.14 11 342.1 6.136 6.76.97.85.111.149.166 36.38.39 38.14 11 3.913.1 6.136 6.74.98.86.112.15.168 36.382.39 36.137 12 5.876.3 6.138 6.71.99.87.114.151.169 36.377 84.198.96 11 7.896 6.137 6.75.99.87.114.15.17 37.367 46.153.64 1 327 8.5 6.132 6.84 5.74.13.132.138 7.332 95 58.193 1 313 4. 6.133 6.83.68.62.81.12.135 4.353 82 4.175.9 18. 4.947 8.726.66.91.115.147.131.182.61.22.87.131.899 1.971.2 4.943 8.732.68.93.117.151.137.191.7.14.77.119.9 2.955 4.95 8.721.7.95.12.155.144.77.9.74.113.91 3.389.1 4.955 8.713.69.95.12.155.143 1.78.8.74.113.92 3.929. 4.957 8.79.69.95.12.155.144 1.78.1.76.117.91 5.88. 4.952 8.715.68.93.117.15.135.188.66.22.91.136.91 7.835.2 4.952 8.717.66.9.112.142.123.169 9.37.15.154.9 331 8.3 4.95 8.723.2 1.64.11.12.176.63.19.79.18.92 3.386 4. 4.959 8.77.5.76.1.135.132.184.73.11.71.17.8 174.1 4.336 9.687.58.76.92.115.96.143.37 8.11.148.82 1.966.2 4.351 9.664.58.77.94.118.1.152 6.39.12.138.82 2.94.3 4.35 9.665.59.79.95.12.13.156 9.35.98.131.82 3.399 4.352 9.662.59.79.95.12.12.156 9.35.98.131.8 3.94.2 4.34 9.681.59.79.96.12.13.154 8.37.11.135.82 5.884.3 4.348 9.668.58.77.92.115.97.145.38 6.19.15.81 7.775.1 4.346 9.671.56.75.89.11.89.133.25.59.124.168.8 34 8.3 4.34 9.682.1.24 3.75.72.136.35.92.122.8 3 4.2 4.335 9.687.31.55.74.12.94.143 8.29.86.122.61 171.1 2.923 11.573.34.53.61.81.62.11.13.59.112.15.6 1.967. 2.919 11.579.35.55.64.84.67.116.2.5.11.132.61 2.956.1 2.929 11.566.37.57.65.86.7.121.23 6.97.124.62 3.396.2 2.929 11.567.38.58.67.88.71.122.24 5.95.124.61 3.957.2 2.928 11.567.37.58.66.87.7.121.23 6.97.129.63 5.94.1 2.941 11.553.36.55.63.83.65.114.14.57.19.15.62 7.831.2 2.932 11.564.34.54.61.8.6.16.67.12.167.6 3.393 8.1 2.921 11.58.26..13 4.39.11.1.5.9.118.62 33 4.2 2.934 11.561.7.33 3.7.59.19.18 6.85.117

Table 7. Continued (e) θ = 18 at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.796.81.825.84.854 11 159.1 6.135 6.78.26.57.84.89.86.87.18.132.156.175.192 11 1.985.2 6.136 6.74.28.57.85.9.85.86.19.133.156.175.192 11 2.96. 6.136 6.76.3.58.87.91.86.88.111.134.157.176.194 11 2.938.1 6.135 6.76.29.57.86.91.85.88.11.133.156.175.194 11 342.1 6.136 6.76.3.56.87.92.86.88.112.134.156.175.194 11 3.913.1 6.136 6.74.32.55.87.94.87.89.114.135.156.176.196 12 5.876.3 6.138 6.71.31.53.86.94.86.89.115.135.156.176.196 11 7.896 6.137 6.75.3.52.86.93.85.89.116.135.157.176.197 1 327 8.5 6.132 6.84.181.136.12.78.52.2.31.69.11.128.148 1 313 4. 6.133 6.83.7 7.27.17.7.15.58.94.129.163.192.9 18. 4.947 8.726.52.57.55 5.38 4 7.39.33.35 4.899 1.971.2 4.943 8.732.54.59.56 6.39 5 9 1.35.37 5.9 2.955 4.95 8.721.57.6.58 8 6.5 2.35.38 7.91 3.389.1 4.955 8.713.55.59.56 6.38 4 8.39.33.37 6.92 3.929. 4.957 8.79.53.57.54 5.37 3 7.39.33.37 6.91 5.88. 4.952 8.715.55.58.55 6.38 3 7.38.32.36 6.91 7.835.2 4.952 8.717.54.58.55 5.37 3 7.38.32.35 4.9 331 8.3 4.95 8.723 6.84.1.13.13.112.11.87.64.52 4.92 3.386 4. 4.959 8.77 5.65.68.62.56.62.63.5.38.37.8 174.1 4.336 9.687 1.56.58.51 6.52.55 9 6 7.5.82 1.966.2 4.351 9.664.56.58.5 5.51.55 9 6 8.51.82 2.94.3 4.35 9.665.39.55.58.51 6.52.55.5 6 8.51.82 3.399 4.352 9.662 1.56.58.51 6.52.55.5 6 8.51.8 3.94.2 4.34 9.681.56.58.51 6.52.55.5 6 9.51.82 5.884.3 4.348 9.668.57.58.51 6.52.54.5 6 8.5.81 7.775.1 4.346 9.671.58.59.51 6.52.54 9 6 7 9.8 34 8.3 4.34 9.682.35 4 3 4.52.53 7.39.32.26.8 3 4.2 4.335 9.687.14.39 3.38.36 3 5 2.37.36.35.61 171.1 2.923 11.573.27 9 8.39.35 1 2 2 2 1.38.6 1.967. 2.919 11.579.27.5 8.39.35 1 2 4 3 1.39.61 2.956.1 2.929 11.566.26.51 8.36 2 3 4 4 3.62 3.396.2 2.929 11.567.27.52.5 1.37 4 4 6 5 3 1.61 3.957.2 2.928 11.567.26.52 9 1.37 3 2 5 6 3 1.63 5.94.1 2.941 11.553.26.51 9.37 2 2 5 5 2.62 7.831.2 2.932 11.564.28.54.51 2.39 4 2 5 6 2.39.6 3.393 8.1 2.921 11.58.24.12.14.8.11.18.15.21.19.12.3.62 33 4.2 2.934 11.561.3.3.29.2.22.27.25.31.31.26.19 19

11 Table 7. Continued (e) Concluded at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.974.986 11 159.1 6.135 6.78.173.159.164.156.147 2 7 48 11 1.985.2 6.136 6.74.173.159.165.157.149 4 81 91 11 2.96. 6.136 6.76.172.159.165.159.15 5 85.3 11 2.938.1 6.135 6.76.172.159.165.159.149 4 85.3 11 342.1 6.136 6.76.171.159.165.16.15 5 86.32 11 3.913.1 6.136 6.74.17.158.165.162.15 6 86.31 12 5.876.3 6.138 6.71.169.158.166.164.152 8 78 73 11 7.896 6.137 6.75.168.158.166.165.152 7 66.199 1 327 8.5 6.132 6.84.115.16.135.142.148.17 87.32 1 313 4. 6.133 6.83.185.159.158.143.126.176 61 84.9 18. 4.947 8.726.72.89.117.139.183 25.56.116.899 1.971.2 4.943 8.732.73.91.119.142.19 36 7.15.9 2.955 4.95 8.721.75.94.123.147.197 46 1.99.91 3.389.1 4.955 8.713.75.93.123.148.196 46 1.1.92 3.929. 4.957 8.79.75.94.123.148.196 46 2.12.91 5.88. 4.952 8.715.74.92.12.142.187 3.56.118.91 7.835.2 4.952 8.717.71.88.114.133.174 6.73.137.9 331 8.3 4.95 8.723 8.59.86.112.177 77.51.16.92 3.386 4. 4.959 8.77.63.8.19.134.193 65 1.95.8 174.1 4.336 9.687.69.79.98.11.15.176.64.122.82 1.966.2 4.351 9.664.7.8.1.114.155.185.56.113.82 2.94.3 4.35 9.665.71.81.11.116.158.191.51.18.82 3.399 4.352 9.662.72.82.12.116.158.19.51.19.8 3.94.2 4.34 9.681.72.82.12.115.157.189.52.11.82 5.884.3 4.348 9.668.71.8.98.11.15.178.64.124.81 7.775.1 4.346 9.671.69.77.94.13.141.163.78.142.8 34 8.3 4.34 9.682 7.69.89.15 6.54.19.8 3 4.2 4.335 9.687.57.66.88.15.159 1 8.13.61 171.1 2.923 11.573.61.62.74.79.121.14.63.117.6 1.967. 2.919 11.579.62.63.76.83.127.148.54.15.61 2.956.1 2.929 11.566.64.66.79.85.13.152 9.99.62 3.396.2 2.929 11.567.65.66.79.86.131.153 8.98.61 3.957.2 2.928 11.567.66.67.8.85.131.153 8.1.63 5.94.1 2.941 11.553.65.65.76.81.125.144.61.117.62 7.831.2 2.932 11.564.66.63.74.77.119.136.73.133.6 3.393 8.1 2.921 11.58.33.32 7.57.121.159.53.12.62 33 4.2 2.934 11.561.54.51.66.72.131.16 7.96

Table 7. Continued (f) θ = 225 at values of x L of M NPR α, deg q, psi p, psi.833.898.912.927.941.951.963.974.986.997 11 159.1 6.135 6.78 38 14.145.85.145 79.398 84.172.11 11 1.985.2 6.136 6.74 36 14.147.86.147 79.398 24 11.128 11 2.96. 6.136 6.76 36 15.147.87.148 81.398 27 39.154 11 2.938.1 6.135 6.76 35 15.148.87.149 81.398 26 38.153 11 342.1 6.136 6.76 34 15.148.86.149 83.398 26 41.154 11 3.913.1 6.136 6.74 32 15.149.86.15 85.398 26 34.148 12 5.876.3 6.138 6.71 3 15.15.88.153 86.399 1.167.11 11 7.896 6.137 6.75 29 16.15.88.153 87.398 63.119.56 1 327 8.5 6.132 6.84.187.152.77.51.154 76 17 55.39.184 1 313 4. 6.133 6.83 42 38.164.82.134 61.389 13 87.166.9 18. 4.947 8.726.94.89.86.111 22 77.76.127.159.899 1.971.2 4.943 8.732.96.91.89.116 33 96.7.69.12.148.9 2.955 4.95 8.721.99.95.93.122 42.39.14.6.112.141.91 3.389.1 4.955 8.713.98.94.92.121 4.38.14.59.111.14.92 3.929. 4.957 8.79.99.95.93.121 4.37.14.61.113.143.91 5.88. 4.952 8.715.97.91.88.115 28 86.3.72.125.16.91 7.835.2 4.952 8.717.93.87.82.15 9 56.15.93.144.182.9 331 8.3 4.95 8.723.8.67.62.98 47 71.17.81.132.15.92 3.386 4. 4.959 8.77.92.84.81.114 5.379.2.6.11.135.8 174.1 4.336 9.687.91.78.69.93.191 39.1.91.143.171.82 1.966.2 4.351 9.664.93.81.73.98 2 55.8.83.135.161.82 2.94.3 4.35 9.665.95.82.75.11 7 63.14.78.132.156.82 3.399 4.352 9.662.96.83.76.12 6 62.14.79.132.157.8 3.94.2 4.34 9.681.96.82.75.11 5 6.13.79.133.16.82 5.884.3 4.348 9.668.93.79.7.94.191 4..9.143.176.81 7.775.1 4.346 9.671.91.74.64.84.174 13.18.14.154.193.8 34 8.3 4.34 9.682.73.56.51.88 22.322.27.8.138.157.8 3 4.2 4.335 9.687.88.72.65.98 17 93.24.69.123.148.61 171.1 2.923 11.573.87.66.56.78.16.196.1.87.143.175.6 1.967. 2.919 11.579.88.68.59.84.168 1.14.75.131.157.61 2.956.1 2.929 11.566.9.7.62.87.173 15.18.71.126.15.62 3.396.2 2.929 11.567.92.72.64.89.176 16.19.7.125.15.61 3.957.2 2.928 11.567.91.72.63.88.173 14.18.71.127.155.63 5.94.1 2.941 11.553.9.68.59.82.163.6.82.141.179.62 7.831.2 2.932 11.564.91.68.56.78.153.183.8.95.154.6 3.393 8.1 2.921 11.58.71 7 1.77.183 48.33.65.126.153.62 33 4.2 2.934 11.561.87.63.55.88.181 36.32.59.116.147 111

112 Table 7. Continued (g) θ = 24 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986 11 159.1 6.135 6.78 11.116.75.112.391 64 36.186 11 1.985.2 6.136 6.74 13.118.76.114.391.53.32 11 2.96. 6.136 6.76 15.118.77.115.391.55.372 16 11 2.938.1 6.135 6.76 16.118.77.115.391.55.372 15 11 342.1 6.136 6.76 17.118.77.116.391.56.377 18 11 3.913.1 6.136 6.74 2.118.77.116.391.58.367 15 12 5.876.3 6.138 6.71 21.119.79.118.392.59 66.172 11 7.896 6.137 6.75 23.119.79.118.392 87 12.131 1 327 8.5 6.132 6.84.149.59.35.11.389.531.555 7 1 313 4. 6.133 6.83 42.127.68.11.381.5.316 47.9 18. 4.947 8.726.99.8.96.167 99.16.6.121.899 1.971.2 4.943 8.732.11.83.11.178.32.7.54.115.9 2.955 4.95 8.721.15.88.16.187.332.1 3.16.91 3.389.1 4.955 8.713.14.87.16.186.33.1 2.16.92 3.929. 4.957 8.79.15.88.16.186.329.1 3.18.91 5.88. 4.952 8.715.11.83.99.173.31.1.57.119.91 7.835.2 4.952 8.717.95.75.88.152 83.31.84.135.9 331 8.3 4.95 8.723.77.63.88.198 98.9.82.134.92 3.386 4. 4.959 8.77.92.78.1.196 2.2 8.16.8 174.1 4.336 9.687.83.65.77.142.32.3.95.143.82 1.966.2 4.351 9.664.86.7.83.154.323.21.88.137.82 2.94.3 4.35 9.665.87.72.86.159.334.16.85.135.82 3.399 4.352 9.662.87.72.87.159.333.16.86.135.8 3.94.2 4.34 9.681.87.72.86.158.33.17.86.136.82 5.884.3 4.348 9.668.83.66.77.142.33.28.96.142.81 7.775.1 4.346 9.671.77.59.66.122 69 6.16.149.8 34 8.3 4.34 9.682.61.53.78.177 22.11.96.145.8 3 4.2 4.335 9.687.75.65.84.169.379.1.77.127.61 171.1 2.923 11.573.59.53.63.121 86.32.19.151.6 1.967. 2.919 11.579.62.56.68.131.35.21.99.141.61 2.956.1 2.929 11.566.63.59.72.135.313.17.95.138.62 3.396.2 2.929 11.567.65.61.73.137.313.16.95.135.61 3.957.2 2.928 11.567.64.61.72.135.312.18.96.137.63 5.94.1 2.941 11.553.59.57.66.124 93.31.17.149.62 7.831.2 2.932 11.564.56.53.6.113 7 6.117.159.6 3.393 8.1 2.921 11.58.37 4.64.147.372.9.98.143.62 33 4.2 2.934 11.561.5.56.72.144.354.1.89.129

Table 7. Continued (h) θ = 255 at values of x L of M NPR α, deg q, psi p, psi.941.963.974.986.997 11 159.1 6.135 6.78.128 26 42.142.74 11 1.985.2 6.136 6.74.129.554.32 2.128 11 2.96. 6.136 6.76.13.566.318 37.15 11 2.938.1 6.135 6.76.13.566.318 36.149 11 342.1 6.136 6.76.131.568.321 39.15 11 3.913.1 6.136 6.74.132.567.319 38.144 12 5.876.3 6.138 6.71.134 4 85.197.12 11 7.896 6.137 6.75.133.328 41.143.56 1 327 8.5 6.132 6.84.19.579.353 66.187 1 313 4. 6.133 6.83.119.576.316 41.159.9 18. 4.947 8.726.146.15.77.125.163.899 1.971.2 4.943 8.732.159.69.119.155.9 2.955 4.95 8.721.169.62.114.15.91 3.389.1 4.955 8.713.168.63.114.15.92 3.929. 4.957 8.79.167.3.64.115.152.91 5.88. 4.952 8.715.153.11.75.123.164.91 7.835.2 4.952 8.717.129.22.7.129.177.9 331 8.3 4.95 8.723.197.3.73.128.162.92 3.386 4. 4.959 8.77.181.6.59.15.14.8 174.1 4.336 9.687.127.33.84.137.176.82 1.966.2 4.351 9.664.14.26.82.133.168.82 2.94.3 4.35 9.665.146.22.79.13.164.82 3.399 4.352 9.662.147.22.79.131.164.8 3.94.2 4.34 9.681.145.22.78.131.166.82 5.884.3 4.348 9.668.125.25.75.133.175.81 7.775.1 4.346 9.671.12.38.81.139.185.8 34 8.3 4.34 9.682.174.25.92.143.171.8 3 4.2 4.335 9.687.158.18.81.123.154.61 171.1 2.923 11.573.111.5.113.148.172.6 1.967. 2.919 11.579.123.15.139.156.61 2.956.1 2.929 11.566.128.36.12.135.151.62 3.396.2 2.929 11.567.13.35.12.134.15.61 3.957.2 2.928 11.567.128.37.13.135.153.63 5.94.1 2.941 11.553.115 8.112.145.171.62 7.831.2 2.932 11.564.11.61.122.155.185.6 3.393 8.1 2.921 11.58.145.34.111.139.153.62 33 4.2 2.934 11.561.137.31.13.128.141 113

114 Table 7. Continued (i) θ = 27 at values of x L of M NPR α, deg q, psi p, psi.951.963.974.986 11 159.1 6.135 6.78.361 76 5.139 11 1.985.2 6.136 6.74.361 96.31 15 11 2.96. 6.136 6.76.361.544.314 36 11 2.938.1 6.135 6.76.36.544.314 35 11 342.1 6.136 6.76.36.548.316 38 11 3.913.1 6.136 6.74.359.536.316 37 12 5.876.3 6.138 6.71.359.362 83.189 11 7.896 6.137 6.75.36 85 38.137 1 327 8.5 6.132 6.84.371.568.345 65 1 313 4. 6.133 6.83.383 41 6.195.9 18. 4.947 8.726.67.14.76.121.899 1.971.2 4.943 8.732.83.2.67.115.9 2.955 4.95 8.721.94.6.6.111.91 3.389.1 4.955 8.713.93.5.6.11.92 3.929. 4.957 8.79.93.5.61.112.91 5.88. 4.952 8.715.77.8.73.119.91 7.835.2 4.952 8.717.34.19.7.124.9 331 8.3 4.95 8.723.126.1.74.125.92 3.386 4. 4.959 8.77.13.11.55.11.8 174.1 4.336 9.687.57.25.84.135.82 1.966.2 4.351 9.664.78.18.81.132.82 2.94.3 4.35 9.665.87.15.79.129.82 3.399 4.352 9.662.86.14.78.129.8 3.94.2 4.34 9.681.82.15.78.13.82 5.884.3 4.348 9.668 8.16.73.131.81 7.775.1 4.346 9.671.18.27.79.137.8 34 8.3 4.34 9.682.125.17.94.142.8 3 4.2 4.335 9.687.99.9.79.122.61 171.1 2.923 11.573.84.113.147.6 1.967. 2.919 11.579.99.3.16.14.61 2.956.1 2.929 11.566.15.25.12.136.62 3.396.2 2.929 11.567.16.25.13.135.61 3.957.2 2.928 11.567.15.26.14.136.63 5.94.1 2.941 11.553.88.36.112.145.62 7.831.2 2.932 11.564.7 9.121.153.6 3.393 8.1 2.921 11.58.132.2.11.141.62 33 4.2 2.934 11.561.118.15.11.129

Table 7. Continued (j) θ = 285 at values of x L of M NPR α, deg q, psi p, psi.927.941.951.963.974.986.997 11 159.1 6.135 6.78.147 26 95 4 62 42.159 11 1.985.2 6.136 6.74.147 26 96.584.342 1.99 11 2.96. 6.136 6.76.149 28 98.588.363 33.115 11 2.938.1 6.135 6.76.148 28 97.588.363 32.114 11 342.1 6.136 6.76.149 29 98.589.367 37.115 11 3.913.1 6.136 6.74.152 31 99.589.367 36.11 12 5.876.3 6.138 6.71.151 31 99.519.32.187.73 11 7.896 6.137 6.75.154 34 99.348 61.157 9 1 327 8.5 6.132 6.84 6 65.52.596.371 85.179 1 313 4. 6.133 6.83 19 84.511.31.318.35 18.9 18. 4.947 8.726 58.179 7.7.114.171.899 1.971.2 4.943 8.732 77 1.6.17.32.19.165.9 2.955 4.95 8.721 92 21.62.27.21.99.161.91 3.389.1 4.955 8.713 91 21.59.28.18.99.162.92 3.929. 4.957 8.79 91 2.56.27.19.1.163.91 5.88. 4.952 8.715 74.195.5.13.36.11.17.91 7.835.2 4.952 8.717 41.159.61.17.67.125.176.9 331 8.3 4.95 8.723 92 37.182.2.71.116.146.92 3.386 4. 4.959 8.77 91 11.75.34.26.97.151.8 174.1 4.336 9.687.177.161.18.22.81.138.181.82 1.966.2 4.351 9.664.19.178.121.11.74.133.175.82 2.94.3 4.35 9.665.198.188.132.7.72.132.173.82 3.399 4.352 9.662.198.188.13.5.71.132.173.8 3.94.2 4.34 9.681.197.186.131.8.73.132.173.82 5.884.3 4.348 9.668.176.158.112.22.83.136.177.81 7.775.1 4.346 9.671.151.126.83.92.141.182.8 34 8.3 4.34 9.682 3 14.195.15.88.14.168.8 3 4.2 4.335 9.687.195.177.118.6.124.163.61 171.1 2.923 11.573.146.156.143.35.13.156.179.6 1.967. 2.919 11.579.155.17.163.26.95.146.165.61 2.956.1 2.929 11.566.16.176.169.21.92.143.161.62 3.396.2 2.929 11.567.162.177.172.21.91.142.161.61 3.957.2 2.928 11.567.16.175.168.21.92.145.162.63 5.94.1 2.941 11.553.148.159.149.33.12.155.176.62 7.831.2 2.932 11.564.134.138.122 2.11.165.187.6 3.393 8.1 2.921 11.58.182.199 4.17.1.153.162.62 33 4.2 2.934 11.561.169.174.163.13.87.141.153 115

116 Table 7. Continued (k) θ = 3 at values of x L of M NPR α, deg q, psi p, psi.898.912.927.941.951.963.974.986.997 11 159.1 6.135 6.78.154.16.155 8.526.311.159.9.58 11 1.985.2 6.136 6.74.155.159.155 8.582 85 12.153.74 11 2.96. 6.136 6.76.156.16.158 9.583.38 27.171.88 11 2.938.1 6.135 6.76.156.16.158 9.583.38 26.171.86 11 342.1 6.136 6.76.158.16.159 11.584.312 28.176.85 11 3.913.1 6.136 6.74.16.161.162 13.586.36 25.178.79 12 5.876.3 6.138 6.71.16.16.163 13.559 63.189.152 6 11 7.896 6.137 6.75.162.162.166 15.357 45.161.116.13 1 327 8.5 6.132 6.84 32 54 16 46.581.361 74 17.114 1 313 4. 6.133 6.83 28 33 25 7.61.34 21.158.16.9 18. 4.947 8.726.334.319.32 36.27.81.119.154.115.899 1.971.2 4.943 8.732.338.326.317 61.17.73.113.148.16.9 2.955 4.95 8.721.338.328.33 88.8.65.15.14.12.91 3.389.1 4.955 8.713.335.326.328 89.9.65.15.14.12.92 3.929. 4.957 8.79.335.326.327 88.9.66.16.141.13.91 5.88. 4.952 8.715.335.323.315 59.22.77.116.151.115.91 7.835.2 4.952 8.717.333.313 88 13.33.75.121.161.126.9 331 8.3 4.95 8.723 7.391.331 5.16.55.82.114.92.92 3.386 4. 4.959 8.77.363.35.331 66.55.9.129.93.8 174.1 4.336 9.687.317 41.198.193.38.85.129.178.13.82 1.966.2 4.351 9.664.33 54 11 8.29.82.125.172.119.82 2.94.3 4.35 9.665.337 62 19 16.25.77.121.167.115.82 3.399 4.352 9.662.338 63 2 17.25.78.121.168.115.8 3.94.2 4.34 9.681.334 61 19 15.25.76.121.169.117.82 5.884.3 4.348 9.668.32 44.199.192.32.74.123.176.128.81 7.775.1 4.346 9.671.32 24.176.162 4.8.128.185.137.8 34 8.3 4.34 9.682.384 73 17 32.24.85.117.152.13.8 3 4.2 4.335 9.687.351 66 13 5.17.71.18.157.15.61 171.1 2.923 11.573 24.178.156.175 1.1.129.183.123.6 1.967. 2.919 11.579 3.185.164.187.29.91.12.169.11.61 2.956.1 2.929 11.566 34.189.17.193.24.87.115.164.95.62 3.396.2 2.929 11.567 37.191.172.194.23.86.113.163.94.61 3.957.2 2.928 11.567 35.19.17.191.25.86.115.167.98.63 5.94.1 2.941 11.553 26.18.158.177.39.97.124.184.117.62 7.831.2 2.932 11.564 16.17.144.159.52.15.132.197.128.6 3.393 8.1 2.921 11.58 83 23.191 18.17.84.17.158.82.62 33 4.2 2.934 11.561 56 7.176.191.13.74.97.157.85

Table 7. Continued (l) θ = 315 at values of x L of M NPR α, deg q, psi p, psi.883.898.912.927.941.951.963.974.986.997 11 159.1 6.135 6.78.95.116.169.165 51.381 82 48.188.141 11 1.985.2 6.136 6.74.95.115.168.164 51.38.526.363 7.151 11 2.96. 6.136 6.76.95.114.168.165 51.381.527 7 22.169 11 2.938.1 6.135 6.76.95.114.167.164 51.381.527 68 23.169 11 342.1 6.136 6.76.96.113.168.164 51.381.528 75 26.173 11 3.913.1 6.136 6.74.98.112.168.165 52.382.529 63 27.175 12 5.876.3 6.138 6.71.98.11.166.164 52.382.528 94.196.159 11 7.896 6.137 6.75.1.111.168.165 53.383 94 43.167.137 1 327 8.5 6.132 6.84.169.189 56 46.38 3.566.341 47 25 1 313 4. 6.133 6.83.169.193 4 36.315 33.347.325 57 3.9 18. 4.947 8.726 36 98.337.348 79.15.27.66.18.149.899 1.971.2 4.943 8.732 38.31.342.36.38.164.17.59.1.142.9 2.955 4.95 8.721 37.3.344.369.343.168.9.5.93.134.91 3.389.1 4.955 8.713 34 97.341.367.344.168.8 8.93.133.92 3.929. 4.957 8.79 35 98.341.367.344.165.9 8.93.132.91 5.88. 4.952 8.715 35 98.339.358.39.154.21.59.13.139.91 7.835.2 4.952 8.717 35 97.333.336 58.145.82.119.153.9 331 8.3 4.95 8.723.37.363 17.37 65 9.5.8.114.92 3.386 4. 4.959 8.77 67.328.367.377.38.156 7.84.118.8 174.1 4.336 9.687 91.34 61 25 27 8.23.9.13.169.82 1.966.2 4.351 9.664 99.317 74 37 4 23.14.83.124.163.82 2.94.3 4.35 9.665.33.323 82 44 49 32.8.8.121.16.82 3.399 4.352 9.662.33.324 83 46 46 32.8.79.121.159.8 3.94.2 4.34 9.681.3.321 8 44 45 31.8.8.122.159.82 5.884.3 4.348 9.668 94.38 64 26 25 1.19.89.13.167.81 7.775.1 4.346 9.671 83 93 45 6 1.182.39.1.138.175.8 34 8.3 4.34 9.682.385.379 93 41 54 66.2.78.118.146.8 3 4.2 4.335 9.687.337.346 86 4 33 6.67.112.148.61 171.1 2.923 11.573 17 24.191.185 5 8.7.95.146.178.6 1.967. 2.919 11.579 22 3.198.194 16 24.6.84.134.163.61 2.956.1 2.929 11.566 25 35 3.198 23 31.12.79.13.157.62 3.396.2 2.929 11.567 27 38 5 1 25 33.13.77.129.157.61 3.957.2 2.928 11.567 26 37 3.199 22 31.11.79.132.16.63 5.94.1 2.941 11.553 21 31.196.188 1 15.3.9.144.177.62 7.831.2 2.932 11.564 13 23.186.177.194.193.2.11.155.191.6 3.393 8.1 2.921 11.58 9 92 42 27 53 67.22.75.135.16.62 33 4.2 2.934 11.561 57 68 24 12 26 18.14.7.127.155 117

118 Table 7. Continued (m) Top interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.898.941 11 159.1 6.135 6.78 5.146 33 11 1.985.2 6.136 6.74 5.146 33 11 2.96. 6.136 6.76 6.39.148 34 11 2.938.1 6.135 6.76 7.148 34 11 342.1 6.136 6.76 8.15 34 11 3.913.1 6.136 6.74.5.152 35 12 5.876.3 6.138 6.71.51.152 35 11 7.896 6.137 6.75.53.155 36 1 327 8.5 6.132 6.84.179.169 22 64 1 313 4. 6.133 6.83.127.125 21 86.9 18. 4.947 8.726.54.35.319.129.899 1.971.2 4.943 8.732.56.37.323.149.9 2.955 4.95 8.721.62.323.165.91 3.389.1 4.955 8.713.56.36.32.164.92 3.929. 4.957 8.79.58.37.32.162.91 5.88. 4.952 8.715.61.32.142.91 7.835.2 4.952 8.717.58.38.318.18.9 331 8.3 4.95 8.723.117.97.39 4.92 3.386 4. 4.959 8.77.55 6.347.164.8 174.1 4.336 9.687 8 1.34.128.82 1.966.2 4.351 9.664 9 3.317.145.82 2.94.3 4.35 9.665 9 3.323.155.82 3.399 4.352 9.662 9 2.324.155.8 3.94.2 4.34 9.681 6 2.321.154.82 5.884.3 4.348 9.668.51 4.36.124.81 7.775.1 4.346 9.671.5 3 89.9.8 34 8.3 4.34 9.682.95.81.368.184.8 3 4.2 4.335 9.687.65.57.338.148.61 171.1 2.923 11.573.36 1 16.135.6 1.967. 2.919 11.579.36 1 23.148.61 2.956.1 2.929 11.566.36 1 26.155.62 3.396.2 2.929 11.567.38 3 29.157.61 3.957.2 2.928 11.567.38 3 27.155.63 5.94.1 2.941 11.553.38 3 19.139.62 7.831.2 2.932 11.564.36 3 8.119.6 3.393 8.1 2.921 11.58.72.76 73.174.62 33 4.2 2.934 11.561.52.59 47.155

Table 7. Concluded (n) Bottom interfairing at values of x L of M NPR α, deg q, psi p, psi.79.723.738.752.767.781.869.883.941 11 159.1 6.135 6.78.27.5.75.89.99.12 31 45.141 11 1.985.2 6.136 6.74.27.5.75.89.99.13 29 44.143 11 2.96. 6.136 6.76.28.51.76.89.11.15 3 44.144 11 2.938.1 6.135 6.76.27.5.74.88.1.14 3 45.144 11 342.1 6.136 6.76.26 9.74.88.11.16 29 44.144 11 3.913.1 6.136 6.74.25 8.74.88.12.18 28 43.145 12 5.876.3 6.138 6.71.23 5.72.85.12.18 27 42.146 11 7.896 6.137 6.75.21 3.71.84.11.18 28 43.146 1 327 8.5 6.132 6.84.177.145.113.88.59.21.181.193.12 1 313 4. 6.133 6.83.61 6.31.27.9.2 27 52.133.9 18. 4.947 8.726.57.59.56.52.57.77.81.93.135.899 1.971.2 4.943 8.732.58.6.57.52.57.77.82.94.149.9 2.955 4.95 8.721.61.62.59.54.59.79.84.97.159.91 3.389.1 4.955 8.713.6.6.58.52.57.77.83.96.158.92 3.929. 4.957 8.79.59.59.56.51.56.76.83.96.157.91 5.88. 4.952 8.715.61.6.57.51.56.76.82.94.143.91 7.835.2 4.952 8.717.61.6.57.52.56.76.8.9.118.9 331 8.3 4.95 8.723 5.79.95.12.113.142.72.75.195.92 3.386 4. 4.959 8.77 9.65.68.67.72.95.77.87.173.8 174.1 4.336 9.687 7.58.6.59.65.84.81.86.12.82 1.966.2 4.351 9.664 6.58.6.6.65.85.82.87.135.82 2.94.3 4.35 9.665 6.58.61.6.65.85.83.88.142.82 3.399 4.352 9.662 7.58.61.6.66.85.83.89.142.8 3.94.2 4.34 9.681 7.58.61.61.65.84.83.89.141.82 5.884.3 4.348 9.668 8.59.61.61.65.84.82.87.119.81 7.775.1 4.346 9.671 9.59.61.61.66.85.8.84.94.8 34 8.3 4.34 9.682.8.31 2 8.56.81.62.65.174.8 3 4.2 4.335 9.687.22 6 8.54.75.73.79.153.61 171.1 2.923 11.573.53.56.56.57.73.73.75.113.6 1.967. 2.919 11.579.52.55.56.56.72.74.76.123.61 2.956.1 2.929 11.566 2.54.56.56.57.73.76.78.129.62 3.396.2 2.929 11.567 3.55.58.58.58.74.77.8.13.61 3.957.2 2.928 11.567 3.56.58.59.58.74.77.8.129.63 5.94.1 2.941 11.553 3.55.57.58.57.73.76.77.116.62 7.831.2 2.932 11.564 5.58.58.6.58.73.76.76.11.6 3.393 8.1 2.921 11.58.8.11.18.23.23 2.5.54.15.62 33 4.2 2.934 11.561.18.33.37.38.54.66.7.14 119

12

121 TS 814 TS 747 TS 5.3 TS 434.1 Air exchange Turning vanes (third set) Pressure drop screen Return passage Turning vanes (second set) Drive motor no. 2 Airflow 58. Quiescent chamber Plenum valve Entrance cone Test section Surge control valve Exhaust Compressor Airflow Motor Catcher screen 85. Turning vanes (fourth set) TS 899 TS. Plenum TS 134. TS 4. TS 7. TS 17. TS 154. TS 179. Diffuser Plenum Turning vanes (first set) TS 285.9 Drive motor no. 1 Antiturbulence screen TS 349.1 Section through TS 134. (looking downstream) Figure 1. The Langley 16-Foot Transonic Tunnel. Dimensions are given in feet.

Wingtip support booms 122 Figure 2. Photograph of model installed in the Langley 16-Foot Transonic Tunnel. L-91-6848

123 Instrumentation passage BL 2. Support booms Wing/centerbody Instrumentation passage Twin vertical tails (forward position) Horizontal tail (aft position) FS 28. Forward end of afterbody FS 476 FS 651 Nozzle connect station FS. BL 5. FS 68.8 BL 2.17 Nozzle centerline BL. Engine interfairing Forebody and faired inlets Afterbody BL 11. Air supply passage Air supply passage (a) Model and wingtip support system. Figure 3. Model sketches. All dimensions are given in inches unless otherwise noted.

Dummy balance Afterbody Nozzle Total temperature probe Inner nozzle Centerbody Outer nozzle Total pressure Flow choke plate Air supply probes Seal duct Flow straightener FS 476 FS 659 FS 68.795 (b) Internal details of afterbody support system and flow path. Engine interfairing 124 Figure 3. Continued.

125 Nozzle external coordinates: L = 68.8 in. Total temperature probe FS 651 FS 68.8 3.59 x - 651.948.949.951.952.954.955 1. r/r max 1..996.991.984.975.963.575 r = 1.94 max 2.9 r 1.85 2 1.99 2 2.5 23 Total pressure probes (c) Nozzle geometric details. Figure 3. Continued.

3.6 Airfoil section: Tip Root Tip chord, in. Root chord, in. Taper ratio Tail height (root to tip), in. Planform area (one side exposed, filler excluded), ft Aspect ratio (exposed, filler excluded) Λ, deg le Vertical-Tail Geometry NACA 64-3.5 NACA 64-5 3.6 9.6.375 2 1. 585 1.514 36.52 1. 36.52 9.6 Filler contoured for each tail location (d) Vertical-tail geometry. Figure 3. Continued. 126

127 Airfoil section: Tip Root Tip chord, in. Root chord, in. Taper ratio Span, in.: Mid on body Aft on body Horizontal-Tail Geometry Planform area (one side exposed, filler excluded), ft Aspect ratio (exposed, filler excluded) Λ le, deg NACA 64-2.5 NACA 64-5.5 2. 11.175 2 27. 26.58 4 2.564 5. 2. 8.6 5 11 Filler contoured for each tail location (e) Horizontal-tail geometry. Figure 3. Continued.

Top view BL. BL -1.16 BL -12.7 mid aft Vertical-tail chord plane FS: 476 53.81 57.31 :.687.782.833 Horizontal tail Side view FS: 476 5. 53.81 57.31 :.687.727.782.833 Vertical tail fwd mid aft WL 6.35 Horizontal-tail chord plane WL. WL -6.35 (f) Sketch showing horizontal and vertical-tail positions on afterbody. Figure 3. Concluded. FS: 651 :.948 Nozzle connect station 128

Vertical-tail positions fwd mid aft Horizontal-tail positions mid aft.7.725.75.775.8.825.85.875.9.925.95.975 1. Figure 4. Positions of vertical and horizontal tails shown on typical plotting grid. Afterbody begins at =.687. 129

45 315 315 45 9 3 285 27 255 24 9 135 225 225 135 18 Left nozzle 18 Right nozzle Figure 5. Circumferential positions of pressure orifice rows as defined for left and right nozzles. See table 1 for distribution of rows between nozzles as tested on model. 13

VTAIL vt fwd mid aft.727.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 6. Effect of vertical-tail position on pressure distributions for M =.8, α =, NPR = 3, and HTAIL = mid position. 131

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 6. Continued. 132

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 6. Continued. 133

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 6. Continued. 134

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 6. Concluded. 135

VTAIL vt fwd mid aft.727.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 7. Effect of vertical-tail position on pressure distributions for M =.8, α =, NPR = 3, and HTAIL = aft position. 136

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 7. Continued. 137

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 7. Continued. 138

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 7. Continued. 139

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 7. Concluded. 14

θ - - VTAIL Horizontal tail =.951 Interfairing fwd mid aft - - - - =.963 =.986 - - - - =.974 =.997 (a) HTAIL = mid position. Figure 8. Effect of vertical-tail position on static pressure distribution around left nozzle for M =.8, α =, and NPR = 3. 141

θ - - VTAIL Horizontal tail =.951 Interfairing fwd mid aft - - - - =.963 =.986 - - - - =.974 =.997 (b) HTAIL = aft position. Figure 8. Concluded. 142

VTAIL vt mid aft.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 9. Change in static pressure coefficients from moving horizontal tails from mid to aft position for M =.8, α =, and NPR = 3. 143

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 9. Continued. 144

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 9. Continued. 145

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 9. Continued. 146

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 9. Concluded. 147

VTAIL vt fwd mid aft.727.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 1. Effect of vertical-tail position on pressure distributions for M = 1, α =, NPR = 3, and HTAIL = mid position. 148

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 1. Continued. 149

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 1. Continued. 15

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 1. Continued. 151

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 1. Concluded. 152

VTAIL vt fwd mid aft.727.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. 153 (a) θ = and 45. Figure 11. Effect of vertical-tail position on pressure distributions for M = 1, α =, NPR = 3, and HTAIL = aft position.

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 11. Continued. 154

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 11. Continued. 155

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 11. Continued. 156

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 11. Concluded. 157

θ - - VTAIL Horizontal tail =.951 Interfairing fwd mid aft - - - - =.963 =.986 - - - - =.974 =.997 (a) HTAIL = mid position. Figure 12. Effect of vertical-tail position on static pressure distribution around left nozzle for M = 1, α =, and NPR = 3. 158

θ - - VTAIL Horizontal tail =.951 Interfairing fwd mid aft - - - - =.963 =.986 - - - - =.974 =.997 (b) HTAIL = aft position. Figure 12. Concluded. 159

VTAIL vt fwd mid aft.727.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 13. Change in static pressure coefficients from moving horizontal tails from mid to aft position for M = 1, α =, and NPR = 3. 16

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 13. Continued. 161

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 13. Continued. 162

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 13. Continued. 163

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 13. Concluded. 164

NPR 1.85 1.999 3.992 6.23 7.962 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. 165 (a) θ = and 45. Figure 14. Effect of nozzle pressure ratio on pressure distributions for M =.8, α =, HTAIL = mid position, and VTAIL = fwd position.

NPR 1.85 1.999 3.992 6.23 7.962 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 14. Continued. 166

NPR 1.85 1.999 3.992 6.23 7.962 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 14. Continued. 167

NPR 1.85 1.999 3.992 6.23 7.962 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 14. Continued. 168

NPR 1.85 1.999 3.992 6.23 7.962 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 14. Concluded. 169

NPR 1.74 1.966 3.94 5.884 7.775 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 15. Effect of nozzle pressure ratio on pressure distributions for M =.8, α =, HTAIL = aft position, and VTAIL = aft position. 17

NPR 1.74 1.966 3.94 5.884 7.775 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 15. Continued. 171

NPR 1.74 1.966 3.94 5.884 7.775 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 15. Continued. 172

NPR 1.74 1.966 3.94 5.884 7.775 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 15. Continued. 173

NPR 1.74 1.966 3.94 5.884 7.775 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 15. Concluded. 174

NPR 1 1.962 3.96 5.879 7.827 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. 175 (a) θ = and 45. Figure 16. Effect of nozzle pressure ratio on pressure distributions for M = 1, α =, HTAIL = mid position, and VTAIL = fwd position.

NPR 1 1.962 3.96 5.879 7.827 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 16. Continued. 176

NPR 1 1.962 3.96 5.879 7.827 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 16. Continued. 177

NPR 1 1.962 3.96 5.879 7.827 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 16. Continued. 178

NPR 1 1.962 3.96 5.879 7.827 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 16. Concluded. 179

NPR.924 1.985 3.913 5.876 7.896 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 17. Effect of nozzle pressure ratio on pressure distributions for M = 1, α =, HTAIL = aft position, and VTAIL = aft position. 18

NPR.924 1.985 3.913 5.876 7.896 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 17. Continued. 181

NPR.924 1.985 3.913 5.876 7.896 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 17. Continued. 182

NPR.924 1.985 3.913 5.876 7.896 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 17. Continued. 183

NPR.924 1.985 3.913 5.876 7.896 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 17. Concluded. 184

M.61.8.899 11 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. 185 (a) θ = and 45. Figure 18. Effect of Mach number on pressure distributions for α =, NPR = 3, HTAIL = mid position, and VTAIL = fwd position.

M.61.8.899 11 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 18. Continued. 186

M.61.8.899 11 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 18. Continued. 187

M.61.8.899 11 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 18. Continued. 188

M.61.8.899 11 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 18. Concluded. 189

M.62.82.91 11 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 19. Effect of Mach number on pressure distributions for α =, NPR = 3, HTAIL = aft position, and VTAIL = aft position. 19

M.62.82.91 11 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 19. Continued. 191

M.62.82.91 11 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 19. Continued. 192

M.62.82.91 11 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 19. Continued. 193

M.62.82.91 11 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 19. Concluded. 194

θ - - M Horizontal tail =.951 Interfairing.61.8.899 11 - - - - =.963 =.986 - - - - =.974 =.997 (a) HTAIL = mid position; VTAIL = fwd position. Figure 2. Effect of Mach number on static pressure distribution around left nozzle for α = and NPR = 3. 195

θ - - M Horizontal tail =.951 Interfairing.62.82.91 11 - - - - =.963 =.986 - - - - =.974 =.997 (b) HTAIL = aft position; VTAIL = aft position. Figure 2. Concluded. 196

α, deg.2 4.1 8.1 θ = - - C* p θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 21. Effect of angle of attack on pressure distributions for M =.8, NPR = 3, HTAIL = mid position, and VTAIL = fwd position. 197

α, deg.2 4.1 8.1 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 21. Continued. 198

α, deg.2 4.1 8.1 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 21. Continued. 199

α, deg.2 4.1 8.1 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 21. Continued. 2

α, deg.2 4.1 8.1 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 21. Concluded. 21

α, deg 4.2 8.3 θ = - - C* p θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (a) θ = and 45. Figure 22. Effect of angle of attack on pressure distributions for M =.8, NPR = 3, HTAIL = aft position, and VTAIL = aft position. 22

α, deg 4.2 8.3 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 22. Continued. 23

α, deg 4.2 8.3 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 22. Continued. 24

α, deg 4.2 8.3 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 22. Continued. 25

α, deg 4.2 8.3 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 22. Concluded. 26

VTAIL vt fwd mid aft.727.782.833 θ = - - θ = 45 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. 27 (a) θ = and 45. Figure 23. Effect of vertical-tail position on pressure distributions at positive angle of attack for M =.9, α =8, NPR = 3, and HTAIL = mid position.

VTAIL vt fwd mid aft.727.782.833 θ = 9 - - θ = 135 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (b) θ =9 and 135. Figure 23. Continued. 28

VTAIL vt fwd mid aft.727.782.833 θ = 18 - -.7.725.75.775.8.825.85.875.9.925.95.975 1. θ = 225 θ = 24 - -.875.9.925.95.975 1..875.9.925.95.975 1. (c) θ = 18, 225, and 24. Figure 23. Continued. 29

VTAIL vt fwd mid aft.727.782.833 θ = 255 θ = 27 θ = 285 - -.925.95.975 1..925.95.975 1..925.95.975 1. θ = 3 θ = 315 - -.875.9.925.95.975 1..875.9.925.95.975 1. (d) θ = 255, 27, 285, 3, and 315. Figure 23. Continued. 21

VTAIL vt fwd mid aft.727.782.833 Top interfairing - - Bottom interfairing - -.7.725.75.775.8.825.85.875.9.925.95.975 1. (e) Top and bottom interfairings. Figure 23. Concluded. 211

Figure 24. Computational model of twin-engine generic fighter. Vertical tail shown in forward position. Horizontal tail shown in mid position. 212