A 1100 kg car traveling at 20 m/s goes over a hill. At the top, the hill provides an upward normal force of 5600 N. (a) Assuming the hill has a circular profile, find the radius of curvature of the hill. (b) What is the maximum speed the car can go over the hill without ramping the car off the ground?
A 1100 kg car traveling at 20 m/s goes over a hill. At the top, the...
5.8 A car is driving along a highway that goes over a hill. The top of the hill has a radius of curvature of 45 m. What is te maximum safe speed for going over the hilltop?
A road has a hill with a top in the shape of a circular arc of radius 32.0 m. How fast can a car go over the top of the hill without losing contact with the ground?
3. A car with mass m travels over a hill with a radius of curvature of r at a speed of 15 m/s. What is the normal force on the car when the car is at the top of the hill? (6 pts) the car has a mass of 1200 Kilograms and the radius of curvature is 25 meters 4. A student with a mass of m rides a roller coaster with a loop with a radius of curvature of...
A car drives on a road which begins flat, then goes up and over the top of a hill and then goes down into a dip and back up to level ground. 12) If the car is moving at 30 m/s at the bottom of the dip, its mass is 800 kg, and the radius of curvature for the dip is 20 m, what is the normal force acting on the car in the dip. 10459 N 19344 N 28625 N...
In the figure, a car is driven at constant speed over a circular hill and then into a circular valley with the same radius. At the top of the hill, the normal force on the driver from the car seat is 0. The driver's mass is 56.0 kg. What is the magnitude of the normal force on the driver from the seat when the car passes through the bottom of the valley? Raclius Raclius Units Number
A car drives over a rounded hill. A) What is the fastest the car can go, in m/s, without the tires coming off of the road? B) If the mass of the car is 1500 kg, what is the net force on the car when it is at the top of the hill when it travels at a speed of 5 m/s?
A car is travelling at the top or a semi-circular hill, and at the top of the hill, it is moving exactly at 32 m/s which is exactly the speed needed to just leave the road/hill. If the same car is travelling over a hill which is one quarter as tall (radius is one quarter), what is the maximum speed, in m/s, it can travel before it just starts to leave the hill?
A car that would normally weigh 9800 N (mass is 1000kg) drives over a hilltop that has a radius of curvature of 120 m at the top of the hill. At what speed would the car be traveling at the top of the hill such that the normal force from the road is only 500 N? Friction is negligible
A sports car of mass 950 kg (including the crosses the rounded top of a hill (radius = 95 m) at 22 Determine the normal force exerted by the road the car, the normal force exerted by the car on 72-kg driver, and the car speed at which the force on the driver equals zero.
answer with explaination please (2.) A car goes over a hill with a constant speed. Ignoring friction or air resistance, which of the following figures correctly shows the lengths and types of forces that should be on the car's free-body diagram at point A just as the car is at the top of the hill? In the diagrams, n stands for normal force, w is the car's weight, and F is a centripetal force.