A 2000 kg car strikes a wall at 15 m/s and comes to a stop in .15 seconds. With how much force did the car strike the wall? Please show all work.

An 1800 kg car traveling at 35.0 m/s strikes a wall. If the car comes to rest in 0.500 seconds, then the magnitude of the average force of the wall on the car is
A 5,000 kg truck traveling at 50 m/s encounters a wall and comes to a stop as it crashes into the wall. The force of the crash was 60,000 N. How long was the crash?
A 2000 kg car at speed of 70 miles an hour comes to a stop within 5 seconds. a) Calculate the amount energy that will be wasted in this vehicle stop. b) If the energy of stopping can be captured in an energy storage system, and used to drive the car again how far the car can go with this stored energy, assume the car is consuming 200Wh/mile.
A 2000 kg car is traveling at 45 m/s. A force of 4000 N is applied to the breaks of the car as it slows down to 15 m/s. How far does the car travel as it slows down? please show all math steps and how you set up the equations. Thanks!
A 0.06-kg lead bullet traveling 151 m/s strikes an armor plate and comes to a stop. If all of the bullet's energy is converted to heat that it alone absorbs, what is its temperature change?
A 0.07-kg lead bullet traveling 170 m/s strikes an armor plate and comes to a stop. If all of the bullet's energy is converted to heat that it alone absorbs, what is its temperature change?
A 0.07-kg lead bullet traveling 173 m/s strikes an armor plate and comes to a stop. If all of the bullet's energy is converted to heat that it alone absorbs, what is its temperature change?
How much energy does it take to stop a 1500 kg car traveling at 50 m/s in 15 s? A) 1 MJ B) 2 MJ C) 3 MJ D) 4 MJ Show work please!
please show work for 4 and 6
andone is a 88-kg man.The woman movés away wih spel0l D) 4.07 m/s C) 0.75 m/s A) -15 m/s B) 5.0 m/s 4Rain comes down with a velocity of -15 m/s and hits the roof of a car. The mass of rain per second that strikesthe roof of the car is 0.060 kg/s. Assuming that rain comes to rest upon striking the car, find the average force exerted by the rain on the...
) A 2000 kg truck is going 20 m/s collides with a brick wall bringing it to a stop. The truck is totaled, but the wall is fairly undamaged. If the collision lasts 100ms, find the average force exerted on the truck by the brick wall. How does this compare to the force that the truck exerts on the wall?