Car A (mass m, initial velocity v) collides with car B (mass m, initial velocity -v)....

A car moving with an initial speed v collides with a second stationary car that is...

A car moving with an initial speed v collides with a second stationary car that is 55.0 percent as massive. After the collision the first car moves in the same direction as before with a speed that is 34.6 percent of the original speed. Calculate the final speed of the second car. Give your answer in units of the initial speed (i.e. as a fraction of v). Is this collision elastic or inelastic? The collision is inelastic. The collision is...

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)...

An object A of mass 10 kg with velocity 18 m/s collides with an object B...

An object A of mass 10 kg with velocity 18 m/s collides with an object B of mass 20 kg which is at rest. The two objects undergo a perfectly inelastic collision. What is the velocity of object A after the collision?

A car of mass 1478 kg collides head-on with a parked truck of mass 2000kg. Spring...

A car of mass 1478 kg collides head-on with a parked truck of mass 2000kg. Spring mounted bumpers ensure that the collision is essentially elastic. If the velocity of the truck is 17 km/h (in the same direction as the car's initial velocity) after the collision, what is the initial speed of the car?

A car of mass 2500 kg collides with a truck of mass 4400 kg, and just...

A car of mass 2500 kg collides with a truck of mass 4400 kg, and just after the collision the car and truck slide along, stuck together, with no rotation. The car's velocity just before the collision was <31, 0, 0> m/s, and the truck's velocity just before the collision was <-13, 0, 24> m/s. b)what is the increase in internal energy of the car and truck (thermal energy and deformation)?

A car with mass M1 “ 2700 kg collides with a car of mass M2 “...

A car with mass M1 “ 2700 kg collides with a car of mass M2 “ 3200 kg. Before the collision car 1 has velocity ⃗v1i “p6m{s, ́14m{sqandcar2hasvelocity⃗v2i “p15m{s,0q. (a) What is the total momentum of the two cars? (6 pts) (b) Immediately after the collision the velocity of car 1 is ⃗v1f “ p14 m{s, ́6 m{sq. What is the velocity ⃗v2f of car 2 after the collision? (9 pts)

a 1.5 kg car (1) initially moving at 4.0 m/s to the right collides with a...

a 1.5 kg car (1) initially moving at 4.0 m/s to the right collides with a 2.0 kg car (2) initially moving at 2.0 m/s to the left. After the inelastic collision, car 1 is moving to the left at 1.2 m/s A) What is the velocity and direction of car 2 after the collision? B) What is the change in total kinetic energy and the percentage of initial kinetic energy remaining after the collision?

1. A mass ma=2m, with an initial velocity of 4 m/s, and a mass mb=m, initially...

1. A mass ma=2m, with an initial velocity of 4 m/s, and a mass mb=m, initially at rest, undergo an elastic collision. Calculate their final velocities after the collision. 2. A mass ma=2m, with an initial velocity of 4 m/s, and a mass mb=m, initially at rest, undergo a perfectly inelastic collision. Calculate the final velocity after the collision and the kinetic-energy loss. 3. A moving mass,m1, collides perfectly inelastically with a stationary mass,m2. Show that the total kinetic energy...

A car of mass m moving at a speed v1 collides and couples with the back...

A car of mass m moving at a speed v1 collides and couples with the back of a truck of mass 3m moving initially in the same direction as the car at a lower speed v2. (Use any variable or symbol stated above as necessary.) (a) What is the speed vf of the two vehicles immediately after the collision? vf = (b) What is the change in kinetic energy of the car–truck system in the collision? ?K =

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...