A 1225 kg car approaches a curve on a highway that has a radius of 235 mm.
At what angle should the highway engineer bank this curve so that vehicles traveling at 32.5 m/sm/s can safely round it regardless of the condition of their tires?

A 1225 kg car approaches a curve on a highway that has a radius of 235...
A 1225 kgkg car approaches a curve on a highway that has a radius of 235 mm. As the car rounds the curve at 32.5 m/sm/s , find the normal force on the car due to the highway surface.
A 1035-kg car and a 2180-kg pickup truck approach a curve on the expressway that has a radius of 216 m.Part A At what angle should the highway engineer bank this curve so that vehicles traveling at 69.4 mi/h can safely round it regardless of the condition of their tires? Part B Should the heavy truck go slower than the lighter car? Part C As the car and truck round the curve at 69.4 mi/h, find the normal force on the car to the highway...
A 1125 kg car approaches a curve on a highway that has a radius of 295 m. Part B As the car rounds the curve at 35.0 m/s , find the normal force on the car due to the highway surface. Express your answer with the appropriate units. uA ? ncar = Value IN Submit Request Answer
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Problem# 5: A box with mass 12.0 kg moves on a ramp that is inclined at an angle of 60.0 above the horizontal. The coefficient of kinetic friction between the box and the ramp surface is u-0.380, a) Draw a free body diagram b) Express all required equations c) Calculate the magnitude of the acceleration of the box if you push on the box with a constant force F- 150.0 N that is parallel to the...
A highway curve of radius 68.0 m is banked at 21.4 degree so that a car traveling at 26.4 m/s (95 km/hr) will utilize both banking and friction to keep it on the curve. Determine the minimum coefficient of static friction between the tires and the road to keep the car on the road at this speed on this curve.
A highway curve has a radius of 130 m. At what angle should the road be banked so that a car traveling at 25.8 m/s has no tendency to skid sideways on the road? [Hint: No tendency to skid means the frictional force is zero.] °
A 830 kg car travels around a curve of 180 m radius at 80 km/h. The acceleration of gravity is 9.81 m/s^2. What should be the banking angle of the curve so that the force of the pavement on the tires of the car is in the normal direction? Answer in units of degrees.
On a highway curve with a radius of 46 meters, the maximum force of static friction that can act on a 1,200 kg car going around the curve is 7,500 Newtons. What speed limit should be posted for the curve so that cars can negotiate it safely? [Express the answer in m/s and mph] 17.322 m/s, 38.975 mph 16.956 m/s, 38.151 mph 16.956 m/s, 37.033 mph 16.459 m/s, 37.033 mph 16.956 m/s, 38.975 mph
On a highway curve with radius 30 m, the maximum force of static friction (centripetal force) that can act on a 1,273-kg car going around the curve is 9,127 N. What speed limit should be posted for the curve so that cars can negotiate it safely?
A curve of radius 70 m is banked so that a 1000 kg car traveling at 60 km/h can round it even if the road is so icy that the coefficient of static friction is approximately zero. The acceleration of gravity is 9.81 m/s 2 . a) Find the minimum speed at which a car can travel around this curve without skidding if the coefficient of static friction between the road and the tires is 0.2 b) Find the maximum...