For traffic moving at 60 `km//hour` along a circular track of radius 0.1 km, the correct angle of banking is

(a) Find the maximum speed at which a car turn round a curve of 30 m radius on a level road if the coefficient of friction between the tyres and the road is 0.4 [ acc. Due to gravity = 10 m // s^(2) ] (b) For traffic moving at 60 km/hr , if the radius of the curve is 0.1 km , what is the correct angle of banking of the road ? ( g = 10 m // s^(2))

For traffic moving at 60km//h if the radius of the curve is 0.1km what is the correct angle of banking of the road Given g = 10m//s^(2) .

For traffic moving at 60 kmh^(-1) , if the radius of the curve is 0.1 km , what is the correct angle of banking of the road? Take g = 10ms^(-2) .

A car is moving on a circular track of radius 0.1 km with a speed 60 km/h, angle of banking would be

A circular curve of a highway is designed for traffic moving at 72 km/h. if the radius of the curved path is 100 m, the correct angle of banking of the road should be given by:

A circular curve of a highway is designed for traffic moving at 72km//h . If the radius of the curved path is 100m , the correct angle of banking of the road should be given by :

A circular curve of a highway is designed for traffic moving at 72 km/h. If the radius of the curved path is 100m, the correct angle of banking of the road shold be given by :

IF the radius of the circular track decreases, then the angle of banking

If a car is to travel with a speed v along the frictionless, banked circular track of radius r , the required angle of banking so that the car does skid is

For a curved track of radius R, banked at angle theta