A m 1 =1000kg car driving at V1i =1.5 m/s on a parking lot collides with a car of mass m 2 =1200.0 Kg sitting at rest. The first car hits and sticks to the second car.
Calculate the following:
e) What is the kinetic energy of the two entangled cars after colliosn?
Speed of the two entangled cars after collision?
During collision momentum is conserved
Initial momentum = Final momentum





ANSWER:
============================
What is the kinetic energy of the first car before collision ?


ANSWER:
==============================
What is the kinetic energy of the second car before collision?


ANSWER:
==============================
What is the kinetic energy of the two entangled cars after collision?



ANSWER:
================================
A m 1 =1000kg car driving at V1i =1.5 m/s on a parking lot collides with...
A 1000kg automobile moving with a speed of 24 m/s collides with a 500kg car initially at rest. If the two stick together, what is the velocity (in m/s) of the two cars after the collision relative to an automobile moving in the same direction at 15 m/s?
a 1490 kg car moving east at 17.0 m/s collides with a 1820kg car moving south at 15.0 m/s, and the two cars comnect together. What is the magnitude of the velocity of the cars right after the collision? what is the direction after collision? How much kinetic energy was converted to another form during the collision?
a 1000kg car is driving at 20 m/s and begins to coast. there is air drag on the car amount equal to -2*v. find car speed after 5 seconds?
A
1000kg car moving at 15m/s to the right collided head-on with
another 1500 kg car who was coming in the opposite direction at a
speed of 20m/s. After collision the two cars interlocked to each
other, and the wreckage dragged with a new speed. What is the lost
of kinetic energy during the collision ?
A 1000 kg moving at 15 m/s to the right collided head-on with another 1500 kg car who was coming in the opposite direction...
Car 1 of mass 3600kg having a speed of 9.5 m/sec collides into car 2 of mass 2000kg traveling at a speed of 3m/sec in the back. a). What is the speed of the center of mass of the system? b). If the two cars stick together what is the speed of the two cars after the combination? c). What is the change in kinetic energy of the system before and after the collision? 4. 5. The "Great American Revolution"...
A railroad car of mass 3.25e4 kg is moving at 3.25 m/s collides and couples with two couples railroad cars, each of the same mass as the single car and moving in the same direction at 1.20m/s. A) what is the speed of the three coupled cars after the collision? B) how much kinetic energy is lost in the collision?
A railroad car of mass 3.10 ✕ 104 kg moving at 3.40 m/s collides and couples with two coupled railroad cars, each of the same mass as the single car and moving in the same direction at 1.20 m/s. (a) What is the speed of the three coupled cars after the collision? (b) How much kinetic energy is lost in the collision?
A railroad car of mass 3.15 ✕ 104 kg moving at 2.75 m/s collides and couples with two coupled railroad cars, each of the same mass as the single car and moving in the same direction at 1.20 m/s. (a) What is the speed of the three coupled cars after the collision? (b) How much kinetic energy is lost in the collision?
A 900 Kg car is traveling east at 15 m/s when it collides with a 750 Kg car traveling north at 20 m/s. The cars stick together. What is the kinetic energy of the system after the collision?
A railroad car of mass 2.95 ✕ 104 kg moving at 3.10 m/s collides and couples with two coupled railroad cars, each of the same mass as the single car and moving in the same direction at 1.20 m/s. (a) What is the speed of the three coupled cars after the collision? m/s (b) How much kinetic energy is lost in the collision? J