Two beanbags with identical mass m = 2.44 kg are thrown at each other with the...

Two pieces of clay are moving directly toward each other. When they collide, they stick together...

Two pieces of clay are moving directly toward each other. When they collide, they stick together and move as one piece. One piece has a mass of 332 grams and is moving to the right at a speed of 1.16 m/s. The other piece has mass 606 grams and is moving to the left at a speed of 0.934 m/s. What fraction of the total initial kinetic energy is lost during the collision? In other words what is (KEi -...

Two balls with masses of 1.60 kg and 5.70 kg travel toward each other at speeds...

Two balls with masses of 1.60 kg and 5.70 kg travel toward each other at speeds of 9.0 m/s and 3.60 m/s, respectively. If the balls have a head-on inelastic collision and the 1.60-kilogram ball recoils with a speed of 7.20 m/s, how much kinetic energy is lost in the collision?

Two balls with masses of 2.30 kg and 5.90 kg travel toward each other at speeds...

Two balls with masses of 2.30 kg and 5.90 kg travel toward each other at speeds of 11.0 m/s and 4.30 m/s, respectively. If the balls have a head-on inelastic collision and the 2.30-kilogram ball recoils with a speed of 8.60 m/s, how much kinetic energy is lost in the collision?

A ball with mass M = 5 kg is moving with speed V=10 m/s and collides...

A ball with mass M = 5 kg is moving with speed V=10 m/s and collides with another ball with mass m = 2.5 kg which is initially stationary. There is no other force such as gravity acting on the two balls. After the collision, both balls move at angle θ=30 degrees relative to initial direction of motion of the ball with mass M = 5 kg. a) What are the speeds of the two balls after the collision? b)...

Mass m = 0.1 kg moves to the right with speed v = 0.48 m/s and...

Mass m = 0.1 kg moves to the right with speed v = 0.48 m/s and collides with an equal mass initially at rest. After this inelastic collision the system retains a fraction = 0.88 of its original kinetic energy. If the masses remain in contact for 0.01 secs while colliding, what is the magnitude of the average force in N between the masses during the collision? Hints: All motion is in 1D. Ignore friction between the masses and the...

A bullet of mass ma= 0.01 kg moving with an initial speed of va= 200 m/s...

A bullet of mass ma= 0.01 kg moving with an initial speed of va= 200 m/s embeds itself in a wooden block with mass mb= 0.99 kg moving in the same direction with an initial speed vb= 2.6 m/s. What is the speed of the bullet-embedded block after the collision? What is the total kinetic energy of the bullet and block system before and after the collision?

Two pieces of clay are moving directly toward each other. When they collide, they stick together...

Two pieces of clay are moving directly toward each other. When they collide, they stick together and move as one piece. One piece has a mass of 324 grams and is moving to the right at a speed of 1.15 m/s. The other piece has mass 625 grams and is moving to the left at a speed of 0.87 m/s. What fraction of the total initial kinetic energy is lost during the collision? In other words what is (KE?i???KE?f???? )/...

Two billiard balls of equal mass move at right angles and meet at the origin of...

Two billiard balls of equal mass move at right angles and meet at the origin of an xy coordinate system. Ball A is moving upward along the y axis at vA = 1.6 m/s , and ball B is moving to the right along the x axis with speed vB = 5.3 m/s . After the collision, assumed elastic, ball B is moving along the positive y axis(Figure 1). What is the final direction of ball A? What are their...

The mass of the blue puck shown below is 35.0% greater than the mass of the...

The mass of the blue puck shown below is 35.0% greater than the mass of the green puck. Before colliding, the pucks approach each other with momenta of equal magnitudes and opposite directions, and the green puck has an initial speed of 11.0 m/s. Find the speeds the pucks have after the collision if half the kinetic energy of the system becomes internal energy during the collision. vgreen = m/s vblue = m/s

07.2 Skater A, with mass 80 kg and initial speed 9.0 m/s, runs into stationary Skater...

07.2 Skater A, with mass 80 kg and initial speed 9.0 m/s, runs into stationary Skater B, mass 65 kg. After the collision, Skater A moves at an angle of 55.0o from her original direction and Skater B moves at an angle of 10o from Skater A’s original direction. Both skaters move on the frictionless, horizontal surface of the rink. (a) What are the final speeds of Skater A and Skater B. (b) Is kinetic energy conserved? If not, what...