The maximum velocity of car which is moving in a circular path of radius of 150 m in a horizontal plane during banking is (coefficient of friction 0.6)

The maximum velocity of car which is moving in a circular path of radius 150 m in a horizontal plane during banking is (coefficient of friction 0'6)

The maximum velocity of car which if moving in a circular path of radius 150m in horizontal plane without banking is (coefficient of friction 0.6)

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 is moving along a circular path of radius 20 m with a speed of 40 km cdot h^(-1) . Find its angular velocity.

A motorcycle rider, in the 'death-well' show in a circus, is revolving along a circular path of radius r on the wall of the well. If the coefficient of friction between the wall and the tyres of the motorcycle is mu , then what minimum velocity should be maintained by the rider?

Force required to move a mass of 1 kg at rest on a horizonlal rough plane (coefficient of friction 0.1 and g=9.8 m//s^(2) ) is

The maximum speed that can be attained by a car, without skidding, on a horizontal circular road of radius R and coefficient of kinetic friction mu is

The maximum speed that can be attained by a car, without skidding, on a horizontal circular road of radius R and coefficient of kinetic friction mu is

A particle of mass m moves in a circular path of radius r in a horizontal plane with uniform angular velocity vec(omega) about the z- aixs. Write down the position vector of the particle at any instant and hence derive expressions for velocity and acceleration of the particle.