Energy stored in the bumper = 0.5*6*10^6*0.034^2= 3468
so, 3468 = 0.5*1200*v^2
v= 2.4m/s
the bumper on a 1200kg car is tested by driving it into a brick wall. The...
A car is equipped with a bumper designed to absorb collisions. The bumper is mounted to the car using pieces of flexible tubing. Upon collision with a rigid barrier (e.g. brick wall), the bumper is designed so that a constant horizontal force is developed. If the car is initially traveling at 1.5 m/s when it collides with a rigid brick wall, compute the magnitude of the distance needed to stop the car and cause the deformation of the bumper tubing....
a car with mass 1220 kg crashes into a wall. the car's velocity immediately before the collision was 13.1 m/s and the bumper is compressed like a spring with spring constant 1.14 x 10^7 N/m. What is the maximum deformation of the bumper for this collision?
A 0.16 kg toy car has a spring-loaded bumper. The bumper has a constant of k = 1050 N/m. The toy is pressed against a wall and the spring compresses 5 cm. When the spring is released the car rolls on a flat surface and then up a hill. a) If there were no friction, how high up the hill should the car go?
1. A 1200kg car traveling at 11.0 m/s runs into a 920kg car traveling in the same direction at 5.00 m/s. After the collision the 1200kg car has slowed to 8.00 m/s. a) what is the final velocity of the 920kg car? 2. A bullet mass of m=0.0010kg embeds itself in a wooden block with mass M=0.999kg, which then compresses a spring (k=230 N/m) by a distance x=0.050m before coming to rest. The coefficient of kinetic friction between the block...
An 18000 kg freight car rests against a spring bumper at the end of a railroad track. The spring has constant k=3.2×10^5 N/m. The car is hit by a second car of 9400 kg mass moving at 8.0 m/s , and the two couple together. Find the maximum compression of the spring. Find the speed of the two cars when they rebound together from the spring.
Your driving a car at a constant speed of 10 m/s. The total mass of the car and its contents its 1200kg. You apply the brakes and come to a smooth stop in 4.0 seconds. While coming to a stop, how large was the force applied by the road on the car? A. zero N B. 3000N C. 4500N D. 6000N E. 9000N Please anwser and explain. Thank you!
The acceleration of the center of a car when it slams into a brick wall with an initial speed of 20 m/s is given by the equation 2m)e(-20s-1)t a(t) = Until it comes to rest. How long will t take the car to stop, and what distance ill it travel in this time?
7. A 1300 kg car drives up a 17 m high hill (the elevation of the hill is 17 meters). During the drive two nonconservative forces do work on the car: the force of friction and the force generated by the car’s engine. The work done by friction adds 331 kJ to the internal energy. The work done by the engine is 634 kJ. (a) What is the change in the car’s kinetic energy? (b) If the car started up...
A 12 kg runaway grocery cart runs into a spring, attached to a wall, with spring constant 220 N/m and compresses it by 80 cm . Part A What was the speed of the cart just before it hit the spring? Neglect any friction.
At what speed does 1600 kg compact car have the same kinetic energy as a 1.80 Times 10^7 kg truck going 24.0 km/hr? A 61kg student is standing at Op a spring in an elevator that is accelerating u? Ward at 3.1 m/s^2. The spring constant is 2600 N/m By how much is the spring compressed? A 13 kg ru? Way grocery cart into a spring with spring constant 250 N/m and compresses it by 61 cm. What was the...