A circular racing car track has a radius of curvature of 500 m. The maximum speed of the car is 180`km//hr`. The angle of banking `theta` is (g=10`m//s^2`)

A car takes 20 minutes to cover a distance of 94 km. Find its speed in m/s .

An unbanked curve has a radius of 60 m. The maximum speed at which a car can make a turn if the coefficient of static friction is 0.75, is

Find the angle of banking of a railway track of radius of curvature 250 m,if the optimum velocity of the train is 90 frac (km)(h) . Also find the elevation of the outer rail over the inner rail if the two tracks are 1.6m apart

A car is moving at a speed of 60 km//h traversing a circular road track of radius 60,m. The minumum coefficient of friction to prevent the skidding of the car is (g=10 m//s^2 )

A circular race course track has a radius of 500 m and is banked at 10^@ .The coefficient of static friction between the tyres of a vehicle and the road surface is 0.25 Compute: The maximum speed to avoid slipping.

A circular race course track has a radius of 500 m and is banked at 10^@ .The coefficient of static friction between the tyres of a vehicle and the road surface is 0.25 Compute: The optimum speed to avoid wear and tear of the tyres.

A bus is moving in a circular horizontal track of radius 10 m with a constant speed 10 m//s . A plumb bob is suspended from the roof of length 1.0m. The angle made by the rod with the track is (take g=10 m//s^2 )

A train is moving at 20 m//s on a railway track of radius of curvature 1600 m. If the distance between two tracks is1.8 m, then the elevation of the outer track above the inner track will be

A train has to negotiate a curve of radius 400m. The speed of the train is 72 km//hour . The horizontal distance is to be raised with respect to the inner radius by h. IF distances between rail is l=1 m, the value of h will be (g=10 m//s^2 )

A 500 kg car takes a round turn of radius 50 m with a velocity of 36 km/hr . The centripetal force is