# Phys101 Second Major-131 Zero Version Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 1

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1 Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 1 Q1. Two forces are acting on a 2.00 kg box. In the overhead view of Figure 1 only one force F 1 and the acceleration of the box are shown. Find the magnitude and direction of the second a force if = 25.0 N, a = 15.0 m/s 2 and θ = 30.0 o. F 1 Box x A) 47.7 N, making an angle of 213 with the positive x-axis. B) 42.0 N, making an angle of 300 with the positive x-axis. C) 50.0 N, making an angle of 30.0 with the positive x-axis. D) 30.0 N, making an angle of 60.0 with the positive x-axis. E) 50.0 N, making an angle of 50.0 with the positive x-axis Q2. A block of 5.0 N weight is at rest on a horizontal surface. A 2.0 N upward force is applied to the block by means of a vertical string attached to its center. Find the magnitude and direction of the force of the block on the horizontal surface. A) 3.0 N downward B) 3.0 N upward C) 7.0 N upward D) 7.0 N downward E) 5.0 N downward Q3. As shown in Figure 2, two boxes A and B are connected to each end of a light vertical rope. A constant upward force F of magnitude 80.0 N is applied to box A. Starting from rest, box B descends 12.0 m in 4.00 s. Find the mass of box B if the tension in the rope is 36.0 N.

2 Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 2 A) 4.34 kg B) 3.18 kg C) 5.67 kg D) 1.45 kg E) 6.43 kg Q4. An elevator and its load have a combined mass of 2.00 x 10 3 kg. Find the tension in the supporting cable when the elevator, initially moving downward at 15.0 m/s, is brought to rest with constant acceleration in a distance of 50.0 m. A) 2.41 x 10 4 N B) 1.51 x 10 4 N C) 3.20 x 10 3 N D) 6.32 x 10 3 N E) 7.45 x 10 4 N Q5. A 15 N horizontal force F pushes a block weighing 5.0 N against a vertical wall as shown in Figure 3. The coefficient of static friction between the wall and the block is 0.60 and the coefficient of kinetic friction is In unit vector notation, find the force (in Newtons) on the block from the wall. A) -15 iˆ ĵ B) -15 iˆ ĵ C) 15 iˆ 4.0 ĵ D) 15 iˆ 4.0 ĵ

3 Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 3 E) 5.0 iˆ 9.0 ĵ Q6. A slab of mass m 1 = 50.0 kg rests on a frictionless floor. A block of mass m 2 = 15.0 kg rests on top of the slab as shown in Figure 4. The coefficient of static friction between the block and the slab is and their coefficient of kinetic friction is The 15.0 kg block is pulled leftward by a horizontal force F of magnitude 100 N. Find the acceleration of the slab. slab A) 1.18 m/s 2 leftward B) 3.92 m/s 2 rightward C) 1.18 m/s 2 rightward D) 3.92 m/s 2 leftward E) 2.34 m/s 2 rightward Q7. Find the smallest radius of a circular flat horizontal track around which a bicyclist can travel if his speed is 30 km/hour and the coefficients of static and kinetic friction between the tires and the track are 0.32 and 0.25, respectively. A) 22 m B) 15 m C) 30 m D) 35 m E) 10 m Q8. A truck carrying a 66.0 kg box accelerates uniformly from rest at 1.17 m/s 2 for 15.0 s. Calculate the work done on the box during this time interval. A) 1.02 x 10 4 J B) 1.02 x 10 3 J C) 2.90 x 10 3 J D) 2.90 x 10 4 J E) 1.90 x 10 4 J Q9. An elevator supported by a single cable descends at a constant speed. The only forces acting on the elevator are the tension in the cable and the gravitational force. Which one of the following statements is true?

4 Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 4 A) The net work done by the two forces is zero. B) The magnitude of the work done by the force of tension is larger than that done by the gravitational force. C) The magnitude of the work done by the gravitational force is larger than that done by the force of tension. D) The kinetic energy of the elevator increases. E) The tension force does positive work. Q10. A spring of spring constant k = 2.0x10 2 N/m is suspended with its upper end supported vertically from a ceiling. With the spring hanging in its equilibrium configuration, an object of mass m = 2.0 kg is attached to the lower end and released from rest. What is the speed of the object after it has fallen 4.0 cm? A) 79 cm/s B) 90 cm/s C) 96 cm/s D) 83 cm/s E) 57 cm/s Q11. A pump is required to lift 800 kg of water per minute from a well 14.0 m deep and eject it with a speed of 18.0 m/s. What must be the average power output of the pump? A) 3.99 kw B) 9.93 kw C) 1.93 kw D) 5.22 kw E) 2.15 kw Q12. As shown in Figure 5 (not to the scale), a small block is released from rest on a frictionless ramp at a height of 3.0 m. The hill heights along the ramp are as shown. The hills have identical circular tops and the block does not fly off any hill. At which two hill tops values of the normal force on the block will be minimum and maximum, respectively?

5 Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 5 (m) A) 3, 1 B) 4, 1 C) 2, 3 D) 1,4 E) 3, 2 Q13. Starting from rest, a firefighter of mass 100 kg slides down a vertical pole. The average frictional force exerted on him by the pole has a magnitude of 820 N, and his speed at the bottom of the pole is 3.40 m/s. How far did he slide down the pole? A) 3.61 m B) 6.31 m C) 1.16 m D) 2.22 m E) 4.15 m Q14. A 2.0 kg block sliding on a rough horizontal surface is attached to one end of a horizontal spring (k = 2.5x10 2 N/m) which has its other end fixed. The block is pulled to the right by a distance x = 0.20 m from equilibrium and released from rest as shown in Figures 6(a) and 6(b). What is the coefficient of kinetic friction between the block and the horizontal surface if the block passes through the equilibrium position with a speed of 1.8 m/s?

6 Coordinator: Dr. A. A. Naqvi Sunday, November 03, 2013 Page: 6 A) 0.45 B) 0.32 C) 0.58 D) 0.19 E) 0.26 Q15. An object moves from point A to point B under the influence of only two forces. Between points A and B, one force is conservative and does +150 J of work while the other force is non-conservative and does 100 J of work. Which one of the following statements describes the situation correctly? A) the kinetic energy of the object increases and its mechanical energy decreases. B) both the kinetic energy and the mechanical energy of the object increase. C) the kinetic energy of the object decreases and its mechanical energy increases. D) both the kinetic energy and mechanical energy of the object decrease. E) the change in its potential energy is 50.0 J.

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