You're driving your new sports car at 85 mph over the top of a hill that has a radius of curvature of 540 m.
You're driving your new sports car at 85 mph over the top of a hill that...
what fraction of your normal weight is your apparent weight as you crest the hill? in percentage You're driving your new sports car at 80 mph over the top of a hill that has a radius of curvature of 525 m.
Please solve and explain PHY2010-002 Intro to Classical 《Homework 4 CH-6 Constants 1 Periodic Table You're driving your new sports car at 70 mph over the top of a hill that has a radius of curvature of 540 m mg Provide Feedback 名。
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?
44. A car is driven at a steady speed of 55.0 mph over the top of a circular hill. The radius of this circular hill is 110.4 m. Calculate the centripetal acceleration of the car as it passes over the top of the hill.
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?
Please answer this question as much as simple 7. You're driving in a car along a hilly stretch of highway when you come to a big hll. You decide to measure the height of the hill by coasting up the so you put the car in neutral and coast to the top of the hll. At the bottom of the hill you're going 28 m/s, while at the top of the hill you are going 17 m/s. How tall is...
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 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.
A sports car of mass 1000 kg (including the driver) crosses the rounded top of a hill (radius = 85 m ) at 24 m/s . A) Determine the normal force exerted by the road on the car. B) Determine the normal force exerted by the car on the 80-kg driver. C) Determine the car speed at which the normal force on the driver equals zero.
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?