AP Q1 Practice Questions Kinematics, Forces and Circular Motion

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AP Q1 Practice Questions Kinematics, Forces and Circular Motion Q1 1999B1. (REDUCED 9 mins) The Sojourner rover vehicle shown in the sketch above was used to explore the surface of Mars as part of the Pathfinder mission in 1997. Use the data in the tables below to answer the questions that follow. Mars Data Sojourner Data Radius: 0.53 x Earth's radius Mass of Sojourner vehicle: 11.5 kg Mass: 0.11 x Earth's mass Wheel diameter: 0.13 m Stored energy available: 5.4 x 10 5 J Power required for driving under average conditions: 10 W Land speed: 6.7 x 10-3 m/s a. Determine the acceleration due to gravity at the surface of Mars in terms of g, the acceleration due to gravity at the surface of Earth. b. Calculate Sojourner's weight on the surface of Mars. c. Assume that when leaving the Pathfinder spacecraft Sojourner rolls down a ramp inclined at 20 to the horizontal. The ramp must be lightweight but strong enough to support Sojourner. Calculate the minimum normal force that must be supplied by the ramp. d. What is the net force on Sojourner as it travels across the Martian surface at constant velocity? Justify your answer. Q2. 1991B1. (REDUCED 9 mins) A 5.0-kilogram monkey hangs initially at rest from two vines, A and B. as shown above. Each of the vines has length 10 meters and negligible mass. a. On the figure below, draw and label all of the forces acting on the monkey. (Do not resolve the forces into components, but do indicate their directions.) b. Determine the tension in vine B while the monkey is at rest. The monkey releases vine A and swings on vine B. Neglect air resistance. d. Determine the tension in vine B as the monkey passes through the lowest point of its first swing. Take the velocity of the monkey at the lowest point to be 5.1 m/s.

Q3. 1995B3. Part of the track of an amusement park roller coaster is shaped as shown above. A safety bar is oriented lengthwise along the top of each car. In one roller coaster car, a small 0.10-kilogram ball is suspended from this bar by a short length of light, inextensible string. a. Initially, the car is at rest at point A. i. On the diagram below, draw and label all the forces acting on the 0.10-kilogram ball. ii. Calculate the tension in the string. The car is then accelerated horizontally, goes up a 30 incline, goes down a 30 incline, and then goes around a vertical circular loop of radius 25 meters. For each of the four situations described in parts (b) to (e), do all three of the following. In each situation, assume that the ball has stopped swinging back and forth. 1)Determine the horizontal component T h of the tension in the string in newtons and record your answer in the space provided. 2)Determine the vertical component T v of the tension in the string in newtons and record your answer in the space provided. 3)Show on the adjacent diagram the approximate direction of the string with respect to the vertical. The dashed line shows the vertical in each situation. b. The car is at point B moving horizontally 2 to the right with an acceleration of 5.0 m/s. T h = T v = c. The car is at point C and is being pulled up the 30 incline with a constant speed of 30 m/s. T h =

T v = d. The car is at point D moving down the incline with an acceleration of 5.0 m/s 2. T h = T v = e. The car is at point E moving upside down with an instantaneous speed of 25 m/s and no tangential acceleration at the top of the vertical loop of radius 25 meters. T h = T v =

Q4. 2000B2. Blocks 1 and 2 of masses m l and m 2, respectively, are connected by a light string, as shown above. These blocks are further connected to a block of mass M by another light string that passes over a pulley of negligible mass and friction. Blocks l and 2 move with a constant velocity v down the inclined plane, which makes an angle with the horizontal. The kinetic frictional force on block 1 is f and that on block 2 is 2f. a. On the figure below, draw and label all the forces on block m l. Express your answers to each of the following in terms of m l, m 2, g,, and f. b. Determine the coefficient of kinetic friction between the inclined plane and block 1. c. Determine the value of the suspended mass M that allows blocks 1 and 2 to move with constant velocity down the plane. d. The string between blocks 1 and 2 is now cut. Determine the acceleration of block 1 while it is on the inclined plane. Q5. 1988B1. A helicopter holding a 70-kilogram package suspended from a rope 5.0 meters long accelerates upward at a rate of 5.2 m/s 2. Neglect air resistance on the package. a. On the diagram below, draw and label all of the forces acting on the package. b. Determine the tension in the rope. c. When the upward velocity of the helicopter is 30 meters per second, the rope is cut and the helicopter continues to accelerate upward at 5.2 m/s 2. Determine the distance between the helicopter and the package 2.0 seconds after the rope is cut.

Q6. 1982B2. A crane is used to hoist a load of mass m 1 = 500 kilograms. The load is suspended by a cable from a hook of mass m 2 = 50 kilograms, as shown in the diagram above. The load is lifted upward at a constant acceleration of 2 m/s 2. a. On the diagrams below draw and label the forces acting on the hook and the forces acting on the load as they accelerate upward b. Determine the tension T 1 in the lower cable and the tension T 2 in the upper cable as the hook and and load are accelerated upward at 2 m/s 2. Use g = 10 m/s².

1 Snow day! Morgan is pulling her sister on a sled at a constant velocity v with a force F, which acts an angle of q to the horizontal. The normal force exerted on the sled by the ground has magnitude: A) B) C) D) E) W - Fcosq W - Fsinq W W + Fsinq W + Fcosq

1 Snow day! Matt is pulling his sister on a sled at a constant velocity v with a force F, which acts an angle of q to the horizontal. The normal force exerted on the sled by the ground has magnitude: A) B) C) D) E) W - Fcosq W - Fsinq W W + Fsinq W + Fcosq

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3 A planet is detected around another star system. That planet has a mass 1/10 of that of the Earth, and a diameter ½ that of the Earth. The acceleration of a falling body near the planet s surface is most nearly: A) 0.25 m/s2 B) 0.5 m/s2 C) 2 m/s2 D) 4 m/s2 E) 25 m/s2

4 Three cars move along a perfectly flat road. The following displacement-time graphs represent the motion of the three cars. The net force on the object is zero in which of the cases? A) B) C) D) E) I and II only. I and III only. I, II, and III. II only. III only. x x 1 2 t t x 3 t

5 A 0.5 meter long baby mobile has two masses 20 g and 60 g hung from opposite ends. If the mass of the stick is negligible, where should a string be attached if the mobile is to remain horizontal when suspended. A) B) C) D) E) At point A At point B At point C At point D At point E A 20g B C D E 60g

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