Physics 201 MWF9:10 Fall 2009 (Ford) Name (printed) Name (signature as on ID) Lab Section Number Exam 2 Chapts. 6-8 in Young&Geller

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Physics 201 MWF9:10 Fall 2009 (Ford) Name (printed) Name (signature as on ID) Lab Section Number Exam 2 Chapts. 6-8 in Young&Geller Multiple Choice questions. Circle the correct answer. No work needs to be shown. (6 pts) 1. A small block with mass m 0.20 kg moves on the inside of a circular track that has the shape of a vertical circle with radius R = 2.0 m. When the block is at the top of its circular path its speed is v = 6.0 rn/s. At this point the normal force that the track exerts on the block has magnitude %,4 (a) 8.36 N (b) 5.56 N (c) 4.44 N (d) 1.96 N (6 pts) 2. A satellite is in a circular orbit around a planet that has mass 9.60 x 1023 kg. The constant orbital speed of the satellite is 4500 rn/s. The acceleration of the satellite in its orbit is & (a) zero (b) 1.26 rn/s 2 (c) 4.00 2 m (e) 9.80 rn/s 2 (6 pts) 3. A block with mass 2.0 kg on a horizontal frictionless surface is pressed against a horizontal spring. The block is released from rest and moves along the surface. The spring has force constant 800 N/rn. If the spring was initially compressed 0.090 m, what is the speed of the block when has left the spring? (a) zero (b) 1.2 rn/s (c 1.6 rn/s d 1.8ms (e) 2.4 rn/s

(a) 23.1 J (f) 196 J (b) 51.8 J (a) the magnitude of the momentum of block A is less than the magnitude of the momen Ans. 1I0XIOk (c) 64.0 J (e) 144 J the ground? be neglected. If the gravitational potential energy of the rock is zero at ground level, what a horizontal frictionless surface with a compressed spring between them. The blocks and On the following problems show all your work. Partial credit will be given if earned. Write a height of 12.0 m above the surface of the planet and you find that the rock has speed spring are released and the blocks move off in opposite directions, leaving the spring behind. your answers in the blanks provided. has radius 3.00 x m. What is the mass of the planet? mentum of block B mentum of block B (7the magnitude of the momentum of block A is the same as the magnitude of the mo tum of block B After the blocks leave the spring, (16 pts) 5. Block A with mass 3.0 kg and block B with mass 6.0 kg are at rest on (14 pts) 6. On a planet in a solar system far from ours, you release a rock from rest at (g) none of the above values (c) the magnitude of the momentum of block A is greater than the magnitude of the mo 14.0 m/s just before it reaches the surface. Air resistance can be neglected. The planet that has magnitude 14.0 rn/s and direction 36.9 above the horizontal. Air resistance can (6 pts) 4. A rock with mass 2.0 kg is projected from the ground with an initial velocity is the gravitational potential energy of the rock when it is at its maximum height above

Ans. O 1L1N Ans. 4.6,v1ftIS vertical direction is 53 and is constant. and swings in a horizontal circle at constant speed. The angle between the string and the (18 pts) 7. A small rock of mass 0.050 kg is attached to one end of a 2.0 m long light string b) What is the speed of the rock? a) What is the tension in the string? o. I I.

1-c Ans. magnitude 9 0 W\I5 direction e i -. o the velocity (magnitude and direction) of block B after the collision? at rest. After the collision block A is moving due south with a speed of 3.0 rn/s. What is zontal frictionless surface. It strikes block B, that has mass 11.0 kg and that is initially (18 pts). 8. Block A has mass 8.0 kg and is moving with a speed of 12.0 rn/s on a hori

long ramp that is inclined at an angle of 53.00 above the horizontal. A worker applies a by the friction force that the ramp exerts on the box? by gravity? d) What is the speed of the box when it reaches the top of the ramp? Jç! pull the box to the top of the ramp (point B). While the box is moving, the ramp exerts a constant friction force of 18.0 N on the box, directed down the ramp. constant force F = 90 N that is parallel to the ramp and directed up the ramp in order to (20 pts) 9. A box with mass 5.0 kg is initially at rest at point A at the bottom of a 8.0 m a) For the motion of the box from point A to point B, what is the work done on the box b) For the motion of the box from point A to point B, what by the normal force that is exerted on the box by the ramp? Ans. is the work done on the box c) For the motion of the box from point A to point B, what is the work done on the box Ans. -314 F Ans. 10.2 / _pflff Ans.O

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