Instructor: Profs. Andrew Rinzler, Paul Avery, Selman Hershfield PHYSICS DEPARTMENT PHY 049 Exam 3 April 7, 00 Name (print, last first): Signature: On my honor, I have neither given nor received unauthorized aid on this examination. YOUR TEST NUMBER IS THE 5-DIGIT NUMBER AT THE TOP OF EACH PAGE. DIRECTIONS () Code your test number on your answer sheet (use 76 80 for the 5-digit number). Code your name on your answer sheet. DARKEN CIRCLES COMPLETELY. Code your student number on your answer sheet. () Print your name on this sheet and sign it also. (3) Do all scratch work anywhere on this exam that you like. At the end of the test, this exam printout is to be turned in. No credit will be given without both answer sheet and printout with scratch work most uestions demand. (4) Blacken the circle of your intended answer completely, using a # pencil or blue or black ink. Do not make any stray marks or the answer sheet may not read properly. (5) The answers are rounded off. Choose the closest to exact. There is no penalty for guessing. >>>>>>>>WHEN YOU FINISH <<<<<<<< Hand in the answer sheet separately. Constants: e =.6 0 9 C m p =.67 0 7 kg m e = 9. 0 3 kg c = 3 0 8 m/s micro = 0 6 ɛ o = 8.85 0 C /N m k = /(4πɛ o ) = 9 0 9 N m /C µ o = 4π 0 7 T m/a nano = 0 9 Coulomb s Law: F = (point charge) 4πɛ o r Electric field: E = F E = 4πɛ o r ˆr (point charge) E d σ = ˆr (general) E = (plane) 4πɛ o r ɛ o Gauss law: Φ = ˆn E A = ˆn E da = enc ɛ o Energy: W = F d s = mv f mv i = K f K i For conservative forces U f U i = F d s Ki + U i = K f + U f Electric potential: V = U V b V a = b a E xdx = b a E d s Capacitors: = CV U = C Resistors: i = d = ja = CV ( e t/rc ) (charging) V = C = Kɛ oa d 4πɛ o r (point charge) V = d 4πɛ o r (general) E x = V x, (parallel-plate) E y = V y, E z = V z C = C + C (parallel) u = ɛ oe C = C + C (series) R = V i R = ρl A (wire) P = iv R = R + R (series) = o e t/rc (discharging) R = R + R (parallel) Magnetism: F = v B F = i L B µ = NiA τ = µ B U = µ B db = µ o id s ˆr B d s = µo 4π r i enc B = µ oi πr, (wire) µ oi R (loop center), µ oin L Induction: Φ B = ˆn B A = ˆn B da E = E dφ B d s = L = NΦ B /i (definition) L = µ o n Al (solenoid) E = L di U B = Li E = M di u B = B µ o i = E R ( e t/τ L ) i = i o e t/τ L τ L = L R (solenoid) L = L + L (series) V s V p = N s N p L = L + L (parallel)
AC Circuits: ω = LC (LC circuit) E = E m sin(ωt) i = I sin(ωt φ) (driven RLC) P avg = IE m cos φ cos φ = R Z tan φ = X L X C R I = E m Z = Q o e Rt/(L) cos(ω t + φ) ω = ( ω (R/(L)) ) / Z = R + (X L X C ) X L = ωl, X C = ωc, v L = L di, v C = C First Maxwell s Es.: E ˆndA = enc ɛ 0 E d s = N dφ B Last Maxwell s Es.: B ˆndA = 0 B d s = µo ɛ o dφ E + µ o i enc i d = ɛ o dφ E EM Waves: c = E B = µo ɛ o S = µ o E B I = Savg = cµ o E rms E rms = Em I = P s 4πr I = I o cos θ n sin θ = n sin θ θ c = sin n n θ B = tan n n E = E m sin( k r ωt) B = Bm sin( k r ωt) Em B m k c = ω/k = fλ p r = I c (total absorption) p r = I c (total reflection) p = U c (mom. carried by EM radiation of energy U). The figure shows a simple optical fiber with a plastic core (n =.59) surrounded by a plastic sheath (n =.54). A light ray in air is incident from the left with an angle θ relative to the fiber axis. What is the maximum value of θ that will ensure total internal reflection? () 5.0 () 39.0 (3) 49.5 (4) 75.6 (5) 3.3. The magnetic flux entering the circular bottom face of a right circular cylinder is 3.4 T m and the magnetic flux exiting the sidewall of the cylinder is 63.9 T m. The magnetic flux on the top face must be () 40.5 T m, exiting ().73 T m, entering (3) 40.5 T m, entering (4) 87.4 T m, entering (5) 87.4 T m, exiting 3. In the figure R = 0 Ω, L = 8H, and the ideal battery has a voltage of V = 8 volts. Right after the switch is closed, what is the rate of change of the current? ().5 A/s ().5 A/s (3) 0.90 A/s (4).5 A/s (5) 0.44 A/s 4. Two LC oscillator circuits ( & ) have the same capacitance (C = C ) but different inductances (L L ). The plot shows the voltage across the capacitor as a function of time for the respective circuits (dashed curve is for circuit ). This implies that () L > L () C < L (3) C < L (4) L = L (5) L > L
5. A blue-giant star has a luminosity (total power emission) of.5 0 9 W. What is B rms at a distance eual to the earth s distance from the sun (.5 0 8 km)? ().4 µt () 6 µt (3) 8.5 µt (4) 6 µt (5) 6.5 µt 6. Refer to the previous problem. A black, spherical dust particle of radius 50 µm experiences a gravitational force that is 5 times larger than the radiation force. What luminosity is reuired for the forces to be exactly balanced? ().0 0 30 W () 5.59 0 9 W (3).5 0 30 W (4) 5.0 0 8 W (5) 6.5 0 3 W 7. In the figure the magnetic flux through the loop increases according to the relation Φ B = 3 + 6t + 3t + t 3, where Φ B is in milliwebers and t is in seconds. What is the magnitude of the emf (in millivolts) induced in the loop when t = s and the direction of the induced current? (cw = clockwise, ccw = counterclockwise) () 35, ccw () 35, cw (3) 30, ccw (4) 34, ccw (5) 30, cw 8. The primary of an ideal transformer has 00 turns and the secondary has 600 turns. Then: () the power in the primary circuit is less than that in the secondary circuit () the primary current is six times the secondary current (3) the voltages in the two circuits are the same (4) the freuency in the secondary circuit is six times that in the primary circuit (5) the currents in the two circuits are the same 9. In a sinusoidally driven series RLC circuit the current leads the applied emf. The power dissipated in the resistor can be increased by: () decreasing the amplitude of the driving emf (making no other changes) () decreasing the inductance (making no other changes) (3) decreasing the capacitance (making no other changes) (4) decreasing the driving freuency (making no other changes) (5) increasing the inductance (making no other changes) 0. The rectangular water tank in the figure has wih L = 5.00 m. A ray of light striking the midpoint of the tank at an angle 6.0 from the normal refracts and hits the lower corner of the tank. What is the depth D of the tank? n =.333 for water. D ().66 m (). m (3) 3.77 m (4) 3.34 m (5).83 m L. In the figure the instantaneous current charging the capacitor is i =. A. The circular capacitor plates have a radius of 0 cm. The magnitude of the magnetic field at the point labeled p that lies between the plates, 5 cm from the centerline between the plates is () 9.0 0 7 T ().8 0 8 T (3) 6.6 0 7 T (4) 3. 0 7 T (5) 4.8 0 8 T
. An AC power supply drives a 70 mh inductor. The power supply EMF is E = E m sin ω d t, where E m = V and ω d = 0 rad/s. When the instantaneous current in the circuit is a maximum, the instantaneous emf of the power supply is () + V () V (3) V (4) 0 V (5) + V 3. A solenoid of length 75 cm and radius 0 cm is wound with 300 turns of wire. If the total energy stored in the solenoid is 400 J, what is the current in the wire? () 40 A () 00 A (3) 90 A (4) 550 A (5) 84 A 4. For a driven series RLC circuit, as the driving freuency is increased the current amplitude peaks at 3.5A. The inductance is 00 µh, the capacitance is µf and the emf amplitude is V. The resistance must be: () 8.0 Ω () 3.4 Ω (3) 6 Ω (4) 3 Ω (5) 64 Ω 5. A beam of light polarized along the y axis and moving along the +z axis passes through two polarized sheets with axes of polarization oriented 0 and 70 relative to the y axis. The final intensity of the beam is measured to be 7 W/m. What is the initial beam intensity? () 6 W/m () 8 W/m (3) 0 W/m (4) 690 W/m (5) 95 W/m 6. In the figure a metal rod is forced to move with constant velocity 80 cm/s along two parallel metal rails connected with a strip of metal at one end. A magnetic field of magnitude B = T points out of the page. The rails are separated by L = 0 cm, and the rod has resistance 0 Ω. What is magnitude and direction of the current in the rod? (cw = clockwise, ccw = counterclockwise) () 3. ma, ccw () 3 ma, ccw (3) 3 ma, cw (4) 6.4 ma, ccw (5) 3. ma, cw 7. Oxygen: (A) has an intrinsic magnetic dipole moment, (B) is paramagnetic, (C) is attracted to the high field point of a non-uniform magnetic field, (D) is diamagnetic. Of these statements only the following are true, () A & C () A, B & C (3) D (4) A (5) B & C 8. The circular region of radius r = 50 cm shown in the figure contains a uniform electric field pointing into the page that is increasing according to E(t) =.4 0 5 t (in units of V/m), where t is in seconds. For the path indicated by the dotted line what is the magnitude of B d s, in units of T m? (). 0 ().4 0 (3) 7.6 0 (4) length of dotted line reuired to solve. (5) 8.4 0 9. An LC oscillator oscillates at a freuency of 450 Hz. The capacitor has capacitance of 3.00 µf. The inductor must have inductance of: () 7. mh () 6.5 mh (3) 80.8 mh (4) 69.6 mh (5) 4.7 mh
0. A battery is hooked up to a series arrangement of a resistor and an inductor. After how many time constants, τ L = L/R, will the energy stored (not the current) in the inductor be 55% of its final value? () 0.60 () 0.80 (3).35 (4). (5) 0.30