Consider three masses with m1 = 1 kg located at (0 ,0), m2 = 2kg located at (-1,1) and m3= 3kg located at(1, 1), all distances in meters. The x and y coordinates of the center of mass are

a. 1/5, 1b. 1/6, 1/6 c. -5/6, -1d. 1/6, 5/

2. Consider the two square plates below. The mass of the left plate is 2 kg, and the right plate is 1 kg. The plates are 20 cm and 40 cm on a side respectively. The origin is located at the lower left edge of the smaller plate. The y-position of the center of mass (in cm) is

a. 20/3b. 40/3c. 20d. 40

 

 

 

 

(0,0)

 

3. A mass 1 is located at (0,0), a mass 2 at (1,2) and mass 3 at (1,-2) all in meters. The moment of inertia about an axis out of the page through the origin is (in kg-m2)

a.25b.14c. 26 d. 25/3

 

4. A projectile of mass 0.5 kg moving with speed V = 100 m/s strikes and imbeds itself into a wooden block of mass 4.5 kg. The final kinetic energy of the system (in Joules) is closest to

a. 50 b. 1000 c. 250 d. 0

 

5. A 20 kg child stands at rest holding a 5 kg rock. He throws the rock forward with a velocity of 20 m/s. His recoil velocity is

a. -5b. -4c. 0d. 25

 

6. In a certain collision the initial momentum and kinetic energy of the system of colliding objects are respectively 400 kg-m/s and 1000 J. The final momentum and kinetic energy of the objects are 400 kg-m/s and 800 J. For this collision, what is correct?

a. this cannot happen because the momenta are equal b. the collision is inelastic

c. no energy was lost to heat and deformation d. the internal forces do not cancel pairwise.

 

7. Mass m1 = 5 kg moves to the right with speed v1 = 18 m/s. It strikes a second mass m2 = 4 kg moving away from it with a velocity v2 = 9 m/s. The final velocities of m1 and m2 are respectively (in m/s)

a. -21, -10 b. 0, 30 c. 10, 19 d. 10, 21.

 

8. A 500 kg vehicle travels with velocity V0 = 10 m/s i. It is struck in the rear by a car so that it then has a velocity of Vf = 12 m/s i. The impact takes 0.5 seconds. The average force acting on the vehicle (in Newtons) is

a.22000ib.10000ic. 5000jd. 2000i

 

9. The angular position of a point on the rim of a rotating wheel is given by . The angular velocity and acceleration of the point at t = 2 s (in rad/s and rad/s2) are

a. 20, 20 b. 18, 20 c. 18, 16 d. 20, 16

10. A wheel is rotating at an angular velocity of rad/s. It comes to rest after rotating 50 radians. The angular acceleration the wheel undergoes (in rad/s2 ) is

 

a. -3/5b. -18c. -9d. 1500

11. A 10 kg sphere is rotating with an angular velocity of  = 5 rad/s. It possesses a kinetic energy of 200 J. The radius of the sphere (in m) is

a. 1 b. 2 c. d. 25

 

12. Three forces, F1 = 5 N, F2 = 10 N and F3 = 15 N act on a disk of radius R = 2 m as indicated. F1 acts at the rim of the disk, F2 at 1m from the axis of rotation, and F3 through the axis as indicated. The magnitude (in N-m) of the torque about its center point is closest to (cw indicates clockwise and ccw counterclockwise)

a. 0b. 20 cwc. 20 ccw d. 30 cc

 

F3

F2

 

 

 

 

F1

 

13. An automobile moves down the street at speed v = 80 mph. The speed of a point at the top of the wheel and at bottom of the wheel as it rolls forward (in mph) are respectively

a. 80, 80 b. 160, 80 c. 160, 0 d. 0, 160

 

14. A cylinder with moment of inertia I = MR2/2 sits on a ramp of height H. The cylinder rolls without slipping to the bottom of the ramp. Conservation of energy for the cylinder as applied to this situation gives for its velocity at the bottom

15. A 4 kg object is moving with velocity (in m/s) r = 2 i + 3 j. The angular momentum when the particle is at the position v = i - j is

a. -20 k b. -1 kc. 20kd. 4k