A car can move at a maximum speed of 72 km`cdot h^(-1)` on a curved road of radius of curvature 100 m. what is the coefficient of friction between the tyres of the car and the road?

A car of mass 1500 kg is moving with a speed of 12.5 m cdot s^(-1) on a circular path of radius 20 m on a level road. What should be the frictional force between the car and the road so that the car does not slip? What should be the value of the coefficient of friction this force?

What should be the maximum speed of a motor car of mass 2000 kg when it takes a circular turn of redius 100 m on a plane road? Coefficient of friction between the tyre and the road = 0.25 . Given, g = 10 m cdot s^(-2) .

A car of mass M moves up an inclined road making an angle theta with the horizontal with constant speed nu . If mu is the coefficient of friction between the tyre of the car and the road, show that the power of the engine of the car is P = nu Mg (sin theta + mu cos theta) .

A car of mass M moves up an inclined road making an angle theta with the horizontal with constant speed v. if mu is the coefficient of friction between the type of the car and the road, show that the power of the engine of the car is P=vMg(sin theta+mu cos theta) .

Velocity of a car along a curved path of radius of curvature 100 m is 36 km cdot h^(-1) . What is the angular velocity of the car?

Calculate the maximum speed with which a vehicle can travel on a banked circular road without skidding. A cyclist at a 18 km/h on a level road takes a sharp turn of radius 3 m without reducing the speed. The coefficient of static friction between the tyres and the road is 1. Will cyclist slip while taking the turn?

A car of mass M moves upward with a constant speed v along an inclined road making an angle theta with the horizontal . If mu be the coefficient of friction between the road and the wheel of the car, show that the power of the engine of the car is P=vMg(sin theta +mucos theta) .

A car of mass 1000 kg moves up at 40 km *h^(-1) along an inclined plane of slope 1/(50) . Coefficient of rolling friction between the road and the wheels of the car is 0.3. Find the power of the car engine.

A car of mass M moves upward with a constant speed v along an.. inclined road making an angle theta with the horizontal. If mu be the coefficient of friction between the road and the wheel of the car, show that the power of the engine of the car is P= vMg(sin theta + mu cos theta ).