When a car is going round a circular track, the resultant of all the forces on the car in an inertial frame is

A racing car completes 5 rounds of a circular track in 2 minutes. Find the radius of the track if the car has uniform centripetal acceleration of pi^2ms^-2 .

Explain the concept of pseudo force in non-inertial frame of reference.

A car is moving on a circular path and takes a turn. If R_(1) and R_(2) be the reactions on the inner and outer wheels, respectively, then

A racing car completes three rounds on a circular racing track in one minute. If the car has a uniform centripetal acceleration of pie^2 m/s^2 then the radius of the track will be

A car is travelling on a circular banked road. The centripetal accelerations of a car is provided by

A motor cyclist moves round a circular track with a certain speed and leans at an angle theta_1 . IF he doubles the speed , then he has to lean inward at an angle theta_2 . Then

A cyclist going around a circular road of radius 10 m is observed to be bending inward 30^@ with vertical. Frictional force acting on the cyclist is (Given:g=10 m//s^2 , mass of the cyclist is 90 kg)

A satellite is going in a circular orbit of radius 4 xx 10^4 km around the earth has a certain speed. (a) What will be the radius of a circular orbit of the same satellite when it moves around the planet Mars with the same speed? The masses of earth and Mars are in the ratio 10:1 and their radii are in the ratio 2:1

If a car is travelling at 20 m//s on a circular road of radius 400 m, then the radial acceleration will be