If the road of the previous problem is horizontal (no banking), what should be the minimum friction coefficeint so that a scooter going at 18 km/hr does not skid?

If the road of the previous problem is horizontal (no banking), what should be the minimum friction coefficient so that a scooter going at 18km//h does not skid?

If the road of the previous problem is horizontal (no banking), what should be the minimum friction coefficient so that a scooter going at 18km//h does not skid?

If the road is horizontal (no banking), what should be the minimum friction coefficeint so that a scooter going at 18 km/hr does not skid for r=10m ?

In the previous problem, suppose m_2=2.0kg and m_3=3.0 kg . What should be the mass m so that it remains at rest?

In the previous problem, suppose m_2=2.0kg and m_3=3.0 kg . What should be the mass m so that it remains at rest?

A car goes on a circular horizontal road of radius 100 m. What should be the minimum coefficient of friction between the tyres and the road so that it completes the circle with velocity 10 m/s without slipping ? (Take g=10m//s^(2) )

A car goes on a circular horizontal road of radius 100 m. What should be the minimum coefficient of friction between the tyres and the road so that it completes the circle with velocity 10 m/s without slipping ? (Take g=10m//s^(2) )

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?

An equilateral prism of mass m rests on a rough horizontal surface with ceefficeint of friction mu . A horozontal force F is applied on the prism as shown. If the coefficeint of friction is sufficiently high so that the prism does not slide before toppling, the minimum force required to topple the prism is

A scooter weighing 150 kg together with its rider moving at 36 km/hr is to take a turn of radius 30 m. What horizontal force on the scooter is needed to make the turn possible?If the horizontal force needed for the turn in the previous problem is to be supplied by the normal force by the road what should be the proper angle of banking?