3. A ball with a mass of 100 g is traveling with a velocity of 50 cm/s in the positive x-direction and collides head-on with a 5 Kg ball that was at rest. Assuming that it is elastic, find the velocities (in m's) of the balls after the collision.

Number 3 and if you don’t mind number 4 you don’t have to do it

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Date: Perind dee Tuesday Momentum Worksheet Read each question carefully. Show all of your work and equations used. Don't forget units on finals anowens Assume that any moving object striking a stationary object will stop upon impa 1. A ball of mass 0.440 kg moving with a speed of 4.5 m/s collides head-on with a 0.220 kg ball at rest. If the collision is elastic, what will be the speed of each ball after the collision? ttm VzA (440)(4.5) to =(4+0) +.220 =6.01 , - 1495/5 2. A4 kg ball with a velocity of 4 m/s in the positive x-direction has a head-on elastic collision with a stationary 2 Kg ball. What are the velocities of the balls after the collision? VI8-0 16 Kgs=?Ka uzA Vra8mls Kっ Vin=0 (4%g) (4mls) =2ng) Vin 3. A ball with a mass of 100 g is traveling with : collides head-on with a 5 Kg ball that was at rest. Assuming that it is elastic, find the velocities (in m/s) of the balls after the collision. locity of 50 cm/s in the positive x-direction and 4. A 100 g bullet is fired horizontally into a 14.9 kg block of wood resting on a horizontal surface, and the bullet becomes embedded in the block. If the muzzle velocity of the bullet is 250 m/s, what is the velocity of the block containing the embedded bullet immediately after impact? (Neglect surface friction) 5. A 90 kg astronaut Travis is stranded in space at a point 12 m from his spaceship. In order to get back to his ship, Travis throws a 0.50 kg piece of equipment so that it moves at a speed of 4 m/s directly away from the spaceship. How long will it take him to reach the ship? VIA=0.02m/s 12 0:-(0K9) (vin) t co.skg) (tm/s) O= -1 Vin t Kg.m/s (90K9) Jin= 2 ng m/s 6. A 0.300 kg ball, moving with a speed of 2.5 m/s, has a head-on collision with at 0.600 kg ball initially at rest. Assuming a perfectly elastic collision, what will be the velocity of each ball after the collision? VEd (4. し It=b005