Imagine that the Acela Train moving with velocityv=100mphcollides with a stationarybasketball of massm=600g.Calculate how much energy...

Question1) A car moving North at 12 m/s strikes a stationary car of equal mass. The...

Question1) A car moving North at 12 m/s strikes a stationary car of equal mass. The first car moves off after the collision at an angle of 30° East of North with a speed of 8.0 m/s. a.   What is the velocity of the struck car just after the collision? b.   Show that the collision is inelastic. c.   Explain how dents, skid marks, etc. show that kinetic energy has been lost. d.   If the collision were perfectly elastic, what would...

Ball A has a mass of 5kg and is initially moving at 3m/s, and ball B...

Ball A has a mass of 5kg and is initially moving at 3m/s, and ball B has a mass of 6kg and is traveling at -5m/s. Ball A then collides with ball B head on. After the collision, ball A is moving at -4m/s, what velocity is ball B moving at? Was this an elastic or inelastic collision?

A 1.10-kg ball, moving to the right at a velocity of +1.34 m/s on a frictionless...

A 1.10-kg ball, moving to the right at a velocity of +1.34 m/s on a frictionless table, collides head-on with a stationary 6.90-kg ball. Find the final velocities of (a) the 1.10-kg ball and of (b) the 6.90-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.

A 1.40-kg ball, moving to the right at a velocity of +2.87 m/s on a frictionless...

A 1.40-kg ball, moving to the right at a velocity of +2.87 m/s on a frictionless table, collides head-on with a stationary 6.70-kg ball. Find the final velocities of (a) the 1.40-kg ball and of (b) the 6.70-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.

A 1.70-kg ball, moving to the right at a velocity of +1.51 m/s on a frictionless...

A 1.70-kg ball, moving to the right at a velocity of +1.51 m/s on a frictionless table, collides head-on with a stationary 8.10-kg ball. Find the final velocities of (a) the 1.70-kg ball and of (b) the 8.10-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.

A 4.30-kg ball, moving to the right at a velocity of +3.01 m/s on a frictionless...

A 4.30-kg ball, moving to the right at a velocity of +3.01 m/s on a frictionless table, collides head-on with a stationary 8.50-kg ball. Find the final velocities of (a) the 4.30-kg ball and of (b) the 8.50-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.

A 4.80-kg ball, moving to the right at a velocity of +1.26 m/s on a frictionless...

A 4.80-kg ball, moving to the right at a velocity of +1.26 m/s on a frictionless table, collides head-on with a stationary 8.20-kg ball. Find the final velocities of (a) the 4.80-kg ball and of (b) the 8.20-kg ball if the collision is elastic. (c)Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.

A 1.00-kg ball, moving to the right at a velocity of +1.35 m/s on a frictionless...

A 1.00-kg ball, moving to the right at a velocity of +1.35 m/s on a frictionless table, collides head-on with a stationary 8.00-kg ball. Find the final velocities of (a) the 1.00-kg ball and of (b) the 8.00-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic.

A 4.80-kg ball, moving to the right at a velocity of +3.36 m/s on a frictionless...

A 4.80-kg ball, moving to the right at a velocity of +3.36 m/s on a frictionless table, collides head-on with a stationary 6.10-kg ball. Find the final velocities of (a) the 4.80-kg ball and of (b) the 6.10-kg ball if the collision is elastic. (c) Find the magnitude and direction of the final velocity of the two balls if the collision is completely inelastic. (a) Number Units

A billiard ball moving at 5.80 m/s strikes a stationary ball of the same mass. After...

A billiard ball moving at 5.80 m/s strikes a stationary ball of the same mass. After the collision, the first ball moves at 4.97 m/s, at an angle of 31.0° with respect to the original line of motion. (a) Find the velocity (magnitude and direction) of the second ball after collision. ______ m/s ° (with respect to the original line of motion, include the sign of your answer; consider the sign of the first ball's angle)(b) Was the collision inelastic...