A car is driving over the top of a circularly shaped hill. What is the fastest...

A car drives over the top of a perfectly spherical hill of radius 1.99 m. What...

A car drives over the top of a perfectly spherical hill of radius 1.99 m. What is the maximum speed the car can have without flying off the road at the top of the hill (loosing contact with the road)? Express your answer in m/s.

a 300 g car is at a top of a hill that is 5 m tall,...

a 300 g car is at a top of a hill that is 5 m tall, and rolls down colliding with a car that is 400 g that was at the bottom of that hill what is the height that the carts should reach? And what is the minimum initial speed that the car needs to go to be at the top of the right hill (if the hill on the right was 1 m)

A 2,000 kg car reaches the top of a 100 meter hill at A with a...

A 2,000 kg car reaches the top of a 100 meter hill at A with a speed vA = 40 m/s as shown in the figure below. A hill B is shown in the figure to the right of hill A. (a) Assume there is no frictional loss of energy between the car and the hills. What is the speed of the car (vB) when it gets to the top of the 150 meter hill at B? PHYS 201-001 Summer...

A motorcycle is traveling up one side of a hill and down the other side. The...

A motorcycle is traveling up one side of a hill and down the other side. The crest of the hill is a circular arc with a radius of 42.1 m. Determine the maximum speed that the cycle can have while moving over the crest without losing contact with the road.

A 1000-kg car travels across the crest of a circular hump of radius 30.0 m. What...

A 1000-kg car travels across the crest of a circular hump of radius 30.0 m. What is the maximum speed at which the car can go over the hump without losing contact with the road? The coefficients of friction between the road and the car’s tires are μ s = 0.3 and μ k = 0.2. Use g = 10 m/s 2

A 2000 kg car reaches the top of a 100 meter high hill at A with...

A 2000 kg car reaches the top of a 100 meter high hill at A with a speed vA = 40 m/s . What is the speed vB at the top of the 150 m high hill at B if all sources of friction do work equal to −500,000 J on the car as it coasts in neutral from A to B? 13.5 m/s 11.0 m/s 18.6 m/s 10.1 m/s 14.9 m/s

suppose you start a roller coaster car at the top of a hill with a height...

suppose you start a roller coaster car at the top of a hill with a height of 70 m and go around a loop- the- loop that has its bottom at ground level and has a radius of 15 m. If you weigh 70 kg. Calculate how heavy you will feel a.at the top of the loop b. at one of the sides of the loop Remember, the weight you feel is the normal force.

A hollow sphere (mass M, radius R) starts from rest at the top of a hill...

A hollow sphere (mass M, radius R) starts from rest at the top of a hill of height H. It rolls down the hill without slipping. Find an expression for the speed of the ball's center of mass once it reaches the bottom of the hill.

A roller coaster car with a mass of 920.5 kg starts from rest at the top...

A roller coaster car with a mass of 920.5 kg starts from rest at the top of a 47.1 m hill labeled h1. The car travels to the bottom of the hill and continues up the next hill that is 12.5 m high and labeled h2. a.) Ignoring friction, what is the speed of the roller coaster car at the bottom of the hill? b.) Ignoring friction, what is the speed of the roller coaster car at the top of...

A hollow ball of mass 2.88 kg and radius 0.309 m sits at rest on top...

A hollow ball of mass 2.88 kg and radius 0.309 m sits at rest on top of a hill of height 6.88 m. The ball can either slide down the hill without rolling or roll down without slipping. What is the difference in the ball's speed (in m/s) at the bottom of the hill between these two scenarios?