A car of mass 500 kg moves with a horizontal velocity of 72 km/h. Assuming 1...

A car with a mass of 2200kg, travelling at 60.0 km/h [E], collides with a car...

A car with a mass of 2200kg, travelling at 60.0 km/h [E], collides with a car of mass 1300 kg that is travelling at 30.0 kg/h [E], and the two cars lock bumpers. a) Calculate the velocity of the vehicles immediately after the perfectly inelastic collision. b) Calculate the total momentum of the two cars before and after the collision. c) Determine the decrease in kinetic energy during the collision.

1. A 1000.0 kg car is moving at 20 km/h. If a 2000.0 kg truck has...

1. A 1000.0 kg car is moving at 20 km/h. If a 2000.0 kg truck has 25 times the kinetic energy of the car, how fast is the truck moving? 2. A car of mass 1005 kg collides head-on with a parked truck of mass 2010 kg. Spring mounted bumpers ensure that the collision is essentially elastic. If the velocity of the truck is 15 km/h (in the same direction as the car's initial velocity) after the collision, what was...

1) A car with a mass of 2000 kg with an initial velocity of 10 m/s...

1) A car with a mass of 2000 kg with an initial velocity of 10 m/s crashes into a wall. The time variation (Delta t) is 0.015 seconds. What is the change in momentum? What is the car's impulse and force? What if the car crashes into a haystack with a time variation (Delta t) of 0.15 seconds. What would then be its change in momentum, impulse and force. How about its final velocity? 2) A swing made of a...

1- A car traveling 10 miles/h is able break and stop in 12 meters. When the...

1- A car traveling 10 miles/h is able break and stop in 12 meters. When the car's speed increases to 20 miles/h, what is the distance required to stop the car?  m 2-A particle of mass 5 kg starts moving from rest when acted by a time dependent force F(t) = (4 t + 4 ) N. The position of the particle at time t = 1 s is  m. 3-The kinetic energy of a 500 kg car that moves with a...

A rifle of mass 2.0 kg fires a bullet of mass 0.005 kg. The bullet moves...

A rifle of mass 2.0 kg fires a bullet of mass 0.005 kg. The bullet moves with a velocity of 400 m/s after firing. (a) What is the system? (b) What is the momentum of the bullet before and after firing? (c) What is the recoil velocity of the rifle after firing? (d) What is the impulse given to the bullet due to firing?

A car of mass 950 kg travelling north at 50 km/h collides with a car of...

A car of mass 950 kg travelling north at 50 km/h collides with a car of mass 1350 kg going south at 45 km/h in a completely inelastic collision (i.e. they stick together). Determine the velocity of the car/car combination immediately after the collision. (North is the positive direction and south is the negative direction.) km/h

1) The kinetic energy of a .500 kg glider(glider A) moving on an air track is...

1) The kinetic energy of a .500 kg glider(glider A) moving on an air track is 1.00 J. Find the speed of glider A. 2)Two gliders are moving toward each other. Glider A has a mass of 500 g and is moving with a velocity of 40 cm/s. Glider B has a mass of 400 g and is moving with a velocity of -50 cm/s. After a head-on collision, glider A moves with a velocity of 10 cm/s and glider...

7. A 500 kg car goes around turn in the road that has a radius of...

7. A 500 kg car goes around turn in the road that has a radius of curvature of 5 m. The car is traveling at a constant speed of 10 m/s. (i) What is the centripetal force required to keep the car from sliding out as it goes around the turn? (ii) What must be the coefficient of friction between the tires of the car and the road in order for the car to not sliding as it goes around...

Set up the red car with an initial velocity of +3m/s and mass of 3 kg.Set...

Set up the red car with an initial velocity of +3m/s and mass of 3 kg.Set up the blue car with an initial velocity of -2 m/s and mass of 1 kg. they join and have a final velocity of +1.8m/s a)Show by calculation if momentum is conserved. Include a percentage error calculation. Use the initial momentum before as the theoretical value for the percentage error calculation. Make a statement b)Show by calculation if kinetic energy is conserved. Use the...

A 14,000 kg tractor traveling north at 21 km/h turns west and travels at 26 km/h...

A 14,000 kg tractor traveling north at 21 km/h turns west and travels at 26 km/h . Calculate the a) change in the tractor's kinetic energy. I think it's 1.27 x 10^5 J b) linear momentum (magnitude and direction). I think I got the magnitude?? 8.22 x 10^5 kg m/s but how do I get direction?