A car running with a velocity `72 kmph` on a level road is stoped after travelling a distance of `30m` after disengaging its engine `(g =10m^(-2))` The coefficient of friction between the road and the tyres is .

A car is travelling at 36 kmph on a road . The maximum turning radius of the car is 20 m ans g=10m//s^(2) .Then the coefficient of friction between its tyres and the road is

Find the maximum velocity for skidding for a car moved on a circular track of radius 100 m . The coefficient of friction between the road and tyre is 0.2

Brakes are applied to car moving with disengaged engine, bringing it to a halt after 2s Its velocity at the momnet when the breaks are applied if the coefficient of friction between the road and the tyres is 0.4 is .

What is the stopping distance for a vehicle of mass m moving with speed v along a level road, if the co-efficient of friction between the tyres and the road is mu ?

What will be maximum speed of a car on a road turn of radius 30 m, if the coefficient of friction between the tyres and the road is 0.4 ?

Find the maximum speed at which a car can turn round a curve of 36 m radius on a level road. Given the coefficient of friction between the tyre and the road is 0.53.

The maximum speed of car which can be safely driven along a curve of radius 10 m , if the coefficient of friction between the tyres and the road is 0.5, is