Directions: On this worksheet you will be investigating the relationships between momentum and energy.

Question 1 If F_{max} = 16 N and F_{min} = -12 N then calculate the impulse delivered to a 4-kg mass during the 5 seconds graphed above.

-14 N sec-4 N sec-2 N sec34 N sec46 N sec

Question 2 If the object's initial velocity in Question 1 was 8.7 m/sec, what will be its final velocity at the end of these 5 seconds?

1.7 m/sec32.8 m/sec5.2 m/sec-9.2 m/sec8.2 m/sec

Question 3 What was the magnitude of the average force acting on the 4-kg mass in Question 1 during the 5 seconds displayed on the graph?

-10 N-2.8 N-0.4 N2 N6.8 N

Question 4 A 8.7-gram bullet moving at 270 m/sec travels through a block of wood and emerges out the other side moving at 230 m/sec. If it takes 29.3 µsecs (1 µsec = 1 x 10^{-6} seconds) for the bullet to bore through the wood, what average force did the wood exert on the bullet?

-1.19 x 10^{4} N6.83 x 10^{4} N1.48 x 10^{6} N8.02 x 10^{4} N

Question 5 During target practice, a man shoots a 8.7-gram bullet with a horizontal velocity of 230 m/sec at a 2-kg wooden block balanced on the top of a 1.2-meter tall fence post. If the bullet embeds in the block, how fast will the block-bullet be knocked off the post?

229 m/sec0.076 m/sec1 m/sec115 m/sec

Question 6 After being knocked off, how far from the base of the fence post will the block in Question 5 hit the ground?

1.13 m0.35 m0.24 m0.49 m0.8 m

Question 7 A second 8.7-gram bullet is fired at another 2-kg block which is initially at rest on a table. The bullet embeds in the block resulting in the block sliding 167 centimeters before coming to a stop. The coefficient of friction between the block and the table's surface is µ = 0.362.How much work will the friction between the table and block do on the block while bringing it to a stop?

60.5 J11.9 J4.3 J7.1 J32.9 J

Question 8 How fast was the original bullet in Question 7 travelling before it struck the block?

Question 9 As shown in the diagrams provided below, a ball of mass 1 kg is originally moving along the x-axis with a velocity of 12 m/sec towards the origin. As it approaches the origin, it delivers a glancing blow to a stationary 2-kg mass. After the collision, the 1-kg ball continues traveling towards the left, into the second quadrant, at a reduced speed of 5 m/sec at an angle of 37º above the negative x-axis.

What is the final momentum of the 2-kg mass after the collision?

8 kg m/sec17 kg m/sec6 kg m/sec8.5 kg m/sec3 kg m/sec

Question 10 Within the system, what fraction of the 1-kg ball's original KE remains after the collision?