A racetrack is to have a banked curve with radius 245 m. What should be the angle of the bank if the normal force alone is to allow safe travel around the curve at 58.0 m/s? draw a diagram, please.
A racetrack is to have a banked curve with radius 245 m. What should be the...
Two banked curves have the same radius. Curve A is banked at 10.9 °, and curve B is banked at an angle of 18.8 °. A car can travel around curve A without relying on friction at a speed of 17.1 m/s. At what speed can this car travel around curve B without relying on friction?
Consider a wet banked racetrack, where there is a coefficient of static friction of 0.28 and a coefficient of kinetic friction of 0.23 between the tires and the surface of the racetrack. The radius of the curve is 59.0 m . A) If the banking angle is 31.0 degrees , what is the maximum speed the automobile can have before sliding up the banking? = 24.7 m/s B) For the situation in Part (A), how big is the normal force on the...
1) At what angle should a curve of radius 170 m be banked, so cars can travel safely at 55 mi/h without relying on friction? 2)The system shown is moving down the incline with contant veloicty. If M = 10 kg and m= 54 kg and an incline angle is 300 between the block M and the incline? with steps please
Banked Racetrack Without Friction A puck is sliding around a circular track that is banked at an angle with respect to the horizontal such that no friction between the puck and the track is required to keep the puck from slipping up or down the track. If the puck is moving at a speed 30.9 m/s and the radius of the track is 405 m, determine θ. Suhmit Answer
A 1200 kg car rounds a curve of radius 69 m banked at an angle of 12°. What is the magnitude of the friction force required for the car to travel at 90 km/h?
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A race track is being design to allow racing in a circle to travel at 80 m/s (about 179 mi/h). If the radius of the circular track is to be 150 m, at what angle should the race traffic be bake in order to a c travel at 80 m/s around the track without the aid of friction Be sure to draw the relevant force diagram(s) and show all steps (do not just use the magic Banked curve...
A curve on a road has a radius of curvature of 500.0m and is banked at an angle of 10.00 degrees, if a 1700.0Kg car is traveling at a speed of 27.0m/s around the curve, what is the magnitude and direction of the static frictional force needed to keep the car around the curve at this speed?
What is the ideal speed to take a 95 m radius curve banked at a 20.0° angle? m/s
What is the ideal speed to take a 105 m radius curve banked at a 30.0° angle? m/s
What is the ideal speed to take a 85 m radius curve banked at a 20.0 degree angle? m/s