Velocity of a car along a path of radius of curvature 100 m is 36 km`cdot h^(-1)`.
If the mass of the car is 500 kg, find the magnitude and direction of the statric friction.

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?

Velocity of a car along a path of radius of curvature 100 m is 36 km cdot h^(-1) . Determine its normal acceleration.

Define centripetal force.A particle of mass m is rotating around a circular path of radius r. Find the centripetal acceleration of the particle and the magnitude and direction of the centripetal force acting on it.

To a man, walking on a horizontal path at 2km*h^(-1) , rain appears to fall vertically at 2km*h^(-1) . Find the magnitude and the direction of the actual velocity of rainfall.

A car is moving with a velocity of 36 km cdot h^(-1) . If the diameter of its wheel is 0.7 m, what will be its angular velocity?

A man is walking on a horizontal road at 3 km*h^(-1) while rain is falling vertically with a velocity of 4 km*h^(-1) . Find the magnitude and direction of the velocity of rain with respect to the man.

A body of mass m is moving along x-axis with a velocity V, and another body of mass M is moving along y-axis with a velocity v. After collision they coalesce. (i) Find the magnitude and direction of velocity of the combined mass.

A particle of mass m is revolving along a circular path of radius r with uniform angular velocity omega . What will be the magnitude and direction of the angular momentum of that particle ?

A car passes over a convex bridge. The centre of gravity of the car follows an arc of a circle of radius 30 m. Assuming that the car has a mass of 1000 kg, find the force that the car will exert at the highest point on the bridge, if the velocity of the car is 15 m cdot s^(-1) . At what speed will the car lose contact with the road?