AP Physics C. Multiple Choice. Dynamics
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1 Slide 1 / 36 P Physics C Multiple Choice ynamics
2 Slide 2 / 36 1 ball moves horizontally with an initial velocity v1, as shown above. It is then struck by a tennis racket. fter leaving the racket, the ball moves vertically with a velocity v2, which is smaller in magnitude than v1. Which of the following vectors best represents the direction of the average force that the stick exerts on the ball? < < double- click to edit> > < < double- double- < double- click click click to to edit> to edit> edit> > > > < < double- click to edit> > B C
3 Slide 3 / 36 2 satellite is orbiting the arth. If F is the magnitude of the force exerted by the arth on the satellite and FS is the magnitude of the force exerted by the satellite on the arth, then which of the following is true? F is much greater than F S. B F is slightly greater than F S. C F is equal to F S. F is slightly greater than F S F is much greater than F S
4 Slide 4 / 36 3 n object released from rest at time t = 0 slides down a frictionless incline 2 meters during the first 2 seconds. The distance traveled by the object during the time interval from t = 2 second to t = 3 seconds is approximately, B C 2.5 m 4.5 m 9 m 11 m 13 m
5 Slide 5 / 36 4 marble of mass m moves along a path with a speed defined by the function v = bt2 + c, where t is time and b and c are constants. What is the magnitude F of the net force on the particle at time t = t1? B bt c 3mbt 1 + 2c C mbt 1 mbt 1 + c 2mbt 1
6 Slide 6 / 36 5 force F is exerted by a broom handle on the head of the broom, which has a mass m. The handle is at an angle ( to the horizontal, as shown above. The work done by the force on the head of the broom as it moves a distance d across a horizontal floor is B C Fd sinθ Fd cosθ Fm cosθ Fm tanθ Fmd sinθ
7 Slide 7 / 36 6 body s position as it moves on a straight path is given by the equation x = 2t3 3t2 + 4t, where x is in meters and t is in seconds. The net force on the body is equal to zero when t is equal to B C zero 1/2 s 3 s 4/5 s 5 s
8 Slide 8 / 36 7 The parabola below is a graph of speed v as a function of time t for an object. Which of the following graphs best represents the magnitude F of the net force exerted on the object as a function of time t? V < < double- click to edit> > B < < double- click to edit> > C < < double- click to edit> > < < double- click to edit> > < < double- click to edit> > T
9 Slide 9 / 36 8 descending box of mass 500 kg is uniformly decelerated to rest over a distance of 4 m by a rope in which the tension is 6000 N. The speed vi of the elevator at the beginning of the 4 m descent is most nearly B C 4 m/s 10 m/s 12 m/s 16 m/s 22 m/s
10 Slide 10 / 36 9 When the frictionless system shown below is accelerated by an applied force of magnitude Fa, the tension in the string between the blocks is () 2 Fa (B) Fa (C) (3/5) Fa () (2/5) Fa () 3 Fa B < double- click to edit> > C < < < double- < < < double- click to edit> > < double- click click to click to edit> edit> to > edit> > >
11 Slide 11 / Two 0.5 kilogram blocks are connected by a string that passes over a frictionless pulley, as shown below. The blocks are initially held at rest. If a third block with a mass of 0.25 kilograms is added on top of one of the 0.5 kilogram blocks as shown and the objects are released, the magnitude of the acceleration of the 0.25 kilogram object is most nearly 10.0 m/s 2 B 6.0 m/s 2 C 4.0 m/s m/s m/s 2
12 Slide 12 / newton weight is suspended by two strings as shown below. The tension T in the slanted string is B C 50 N 100 N 150 N 200 N 250 N
13 Slide 13 / rubber band ball of mass m is attached to a string of length R as shown below. The ball is released from rest from position X where the string is horizontal, swings through position Y where the string is vertical, and reaches position Z where the string is again horizontal. What are the directions of the acceleration vectors of the ball at positions Y and Z? Position Y Position Z ownward ownward B ownward To the right C Upward ownward Upward To the left To the right To the left
14 Slide 14 / s shown below, two blocks are pushed along a horizontal frictionless surface by a 30 newton force to the right. The force that the 4kilogram block exerts on the 6kilogram block is B C 8 newtons to the left 8 newtons to the right 10 newtons to the left 12 newtons to the left 12 newtons to the right
15 Slide 15 / mass m moves on a curved path from point X to point Y. Which of the following diagrams indicates a possible combination of the net force F on the mass, and the velocity v and acceleration a of the mass at the location shown? B C
16 Slide 16 / Two identical massless springs are hung from the ceiling. The springs suspend a block of mass 2.4 kg, as shown below. When the block is in equilibrium, each spring is stretched an additional 0.3 meters. The force constant of each spring is most nearly: () 40 N/m (B) 48 N/m (C) 60 N/m () 80 N/m () 96 N/m B < < double- click to edit> > < < double- click to edit> > < < double- click to edit> > < < double- click to edit> > C < < double- click to edit> >
17 Slide 17 / kilogram block lies on an inclined plane. The incline is 8 meters wide and 6 meters tall. The coefficient of friction between the plane and the block is 0.3. The magnitude of the force F necessary to move the block up the plane with constant speed is most nearly B C 64 N 76 N 82 N 90 N 108 N
18 Slide 18 / figure of a dancer on a music box moves counterclockwise at constant speed around the path shown above. The path is such that the lengths of its segments, WX, XY, YZ, and ZW, are equal. rcs WX and YZ are semicircles. Which of the following best represents the magnitude of the dancer's acceleration as a function of time t during one trip around the path, beginning at point W? B C
19 Slide 19 / ball is released from rest at time t = 0 and falls in the presence of air, which exerts a resistant force. The acceleration a of the ball is given by a = g - bv, where v is the object's velocity and b is a constant. If limiting cases for large and small values of t are considered, which of the following is a possible expression for the speed of the object as an explicit function of time? B v = g(1-e -bt )/b V = (ge ht )/b C v = gt - bt 2 v = (g + a)t/b v = v 0 + gt, v 0 0
20 Slide 20 / s shown above, a block of mass m is pulled across a rough surface by a force F exerted at an angle Θ with the horizontal. The frictional force on the block exerted by the surface has magnitude f. What is the acceleration of the block? F/m B FcosΘ /m C (F-f)/m (FcosΘ-f)/m (FsinΘ-mg)/m
21 Slide 21 / s shown above, a block of mass m is pulled across a rough surface by a force F exerted at an angle Θ with the horizontal. The frictional force on the block exerted by the surface has magnitude f. What is the coefficient of friction between the block and the surface? B C f/mg mg/f (mg-fcosθ)/f f/(mg-fcosθ) f/(mg-fsinθ)
22 Slide 22 / kg object moves according to the function: x= 3t 2-4t+7. Which of the following represents the net force that acts on the object? B C 52 N 60N 67 N 78 N 84 N
23 Slide 23 / 36 Questions The system above consists of three blocks, m 1, m 2 and m 3 where m 1 and m 2 are attached to a virtually massless cord and m 3 sits on top of m 1. The system is attached to a massless pulley and accelerates downward. There is no friction between the surface and m 1 however there is friction between the m 1 and m 3. The coefficient of kinetic friction is µ however the coefficient of static friction is not given. Block m 3 does not slide off of block m Find the acceleration of m 2 m 1 g/(m 2 +m 3 ) B (m 1 +m 2 +m 3 )/m 2 g C m 2 g/(m 1 +m 2 +m 3 ) (m 1 +m 3 )g/m 2 (m 1 +m 3 )/m 2 g
24 Slide 24 / What coefficient of static friction must there be in order for m 3 not to slide off of block m 1? m 2 /(m 1 +m 2 +m 3 ) B m 1 /(m 2 +m 3 ) C (m 1 +m 3 )/m 2 (m 1 +m 2 +m 3 )/m 2 m 3 /(m 1 +m 2 +m 3 )
25 Slide 25 / Find the acceleration of block m 3. µg(m 1 +m 2 +m 3 )/m 3 B µm 3 g/m 1 C µg µg(m 1 +m 3 )/m 2 µgm 3 /(m 1 +m 2 +m 3 )
26 Slide 26 / What is the acceleration of block m 2? (m 2 -µm 3 )g/(m 1 +m 2 ) B m 2 g/µ(m 1 +m 3 ) C (m 1 +m 2 +m 3 )µ/3m 1 g (m 1 +m 3 ) µg (m 1 +m 3 )g/µ(m 1 +m 2 +m 3 )
27 Slide 27 / ball of mass m falls in the presence of air resistance. The resistive force is represented by F=bv 2 where b is a constant and v represents the ball s velocity. The acceleration of the ball is most nearly B C (mg)/v b-g (g-bv 2 )/m (bv+g)/m bvg
28 Slide 28 / rubber band ball is suspended by two strings of unequal lengths. Which of the following is true about T 1 and T 2 in the strings? T 1 < T 2 B T 1 > T 2 C T 1 = T 2 T 1 T 2 T 1 - T 2 =mg (T 1 +T 2 )sinѳ=mg
29 Slide 29 / Questions newton force is pushing a 5 kg box is being pushed up an incline at a 53 angle (cos53 =0.6, sin53 =0.8). The coefficient of kinetic friction is 0.5. Which diagram best represents the block s weight W, normal force F n and the friction force F r on the block? B C B C
30 Slide 30 / The normal force on the block is B C 10 N 20 N 30 N 40 N 50 N
31 Slide 31 / Calculate the block s acceleration as it moves up the incline 0.5 m/s 2 B 1.0 m/s 2 C 2.9 m/s m/s m/s 2
32 Slide 32 / truck of mass 5m collides head on with a car of mass 3m. F T represents the force the truck applies to the car. F C represents the force the car applies to the truck. Which of the following is true? B C F T > F C F T <F C F T =F C 3F T =5F C 5F T =3Fc
33 Slide 33 / car is traveling with velocity v and sees a kid playing with a ball in the street. The driver slams on the brakes with a force F and stops in time for the kid to move away safely. If the car was traveling twice as fast how much force would be required to stop at the same spot? F/4 B F/2 C F 2F 4F
34 Slide 34 / kg block and 10 kg block are set up on an incline plane using a pulley system (Friction is not negligible). The 30 kg block accelerates downward while the 10 kg block is accelerating up the incline. The acceleration is equal to 2m/s 2 etermine the tension in the string. B C 200 N 210 N 220 N 230 N 240 N
35 Slide 35 / kg block and 10 kg block are set up on an incline plane using a pulley system (Friction is not negligible). The 30 kg block accelerates downward while the 10 kg block is accelerating up the incline. The acceleration is equal to 2m/s 2 etermine the friction force acting on the 10 kg block. B C 75 N 100 N 140 N 160 N 175 N
36 Slide 36 / 36
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