A car with a mass 1500kg traveling East 10m/s collides with a truck with a mass...

a car (m1=2000kg) is traveling east with a velocity of 20i m/s. this car collieds with...

a car (m1=2000kg) is traveling east with a velocity of 20i m/s. this car collieds with a second car (m2=1500kg) that is traveling north with a velocity 20j m/s. these 2 cars tangle together when they collide. what was the total kinetic energy before the collision? what is the magnitude of the momentum of the 2 cars (as 1 system)? what is the speed of the combined mass just after the collision? what is the direction traveled in degrees?

A car of mass 1200kg traveling northward at 17m/s collides in an intersection with a 1600kg...

A car of mass 1200kg traveling northward at 17m/s collides in an intersection with a 1600kg car traveling westward at 12m/s. (a) Assuming that the two cars remain attached to each-other, find the velocity of the wreck immediately after the collision. (b) Calculate the speed of the wreck and the angle at which it is moving with respect to due North. (c) Calculate the difference between the final kinetic energy and the total initial kinetic energy.

Two identical cars collide at an intersection(m=1500kg). Car 1 is traveling east with a speed of...

Two identical cars collide at an intersection(m=1500kg). Car 1 is traveling east with a speed of 16 m/s and car 2 is traveling north with a speed of 12 m/s. Immediately after the collison, car 1 travels with a speed of 8 m/s in a direction 60 north of east. The cars do not stick together. (a) What is the speed and direction of travel for car 2 after the collision? (b) What is the change in kinetic energy of...

A 1500kg car traveling east with speed 25 m/s collides and sticks to another car traveling...

A 1500kg car traveling east with speed 25 m/s collides and sticks to another car traveling north. The combined wreck skids to a stop. The skid marks are 13m long and make an angle 23° north of east. Determine the mass and speed of the northbound car. You will need to look up the appropriate coefficient of friction. Cite sources.

Car A of mass 1,274 kg is traveling east at 13.2 m/s when it collides with...

Car A of mass 1,274 kg is traveling east at 13.2 m/s when it collides with car B of mass 1,596 kg which is traveling at 14.6 m/s at 71.4 degrees N of W. The two cars stick together after the collision. What is the magnitude of the final velocity of the cars?

A 2.0 kg mass moving to the east at a speed of 4.0m/s collides head on...

A 2.0 kg mass moving to the east at a speed of 4.0m/s collides head on in a comletely inelastic collision with a 2.0 kg mass moving west at 2.0m/s. How much kinetic energy is lost during this collision?

A railroad car of mass 22 500 kg is traveling east 5.50 m/s and collides with...

A railroad car of mass 22 500 kg is traveling east 5.50 m/s and collides with a railroad car of mass 30 000 kg traveling west 1.50 m/s. Find the velocity of the railroad cars that become coupled after the collision.

a car rolls and collides with an ambulance, the car`s mass is 1500kg and befrore the...

a car rolls and collides with an ambulance, the car`s mass is 1500kg and befrore the accident the velocity of the car is 12m/s .the mass of the ambulance is 15000kg and its velocity was 6m/s 1-what is the final velocity of the cars 2-in respect of the two vehicles position what is their final directios and why

2.00-kg block A traveling east at 20.0 m/s collides with 3.00-kg block B traveling west at...

2.00-kg block A traveling east at 20.0 m/s collides with 3.00-kg block B traveling west at 10.0 m/s. After the collision, block A has a velocity of 5.00 m/s due west. (a) How much kinetic energy was lost during the collision? (b) If the blocks were in contact for 75 ms, determine the magnitude and direction of average force exerted on block A.

Car #1 with a mass of 1.50 x 103 kg is travelling east at a speed...

Car #1 with a mass of 1.50 x 103 kg is travelling east at a speed of 25.0 m/s. It collides in the middle of an intersection with Car #2 which has a mass of 2.50 x 103 kg and enters the intersection travelling north at a speed of 20.0 m/s. (a) Find the magnitude and direction of the velocity of the wreckage, assuming that after the collision the two cars stick together and that frictional forces can be neglected....