Two cyclists cycle along circular tracks of radii `R_(1) and R_(2)` at uniform rates. If both of them take same time to complete one revolution, then their angualr speeds are in the ratio

A car is going round a circle of radius R_(1) with constant speed. Another car is going round a circle of radius R_(2) with constant speed. If both of them take same time to complete the circles, the ratio of their angular speeds and linear speeds will be

A car is going round a circle of radius R1 with constant speed. Another car is going round a circle of radius R2 with constant speed.If both of them take same time to complete the circles,the ratio of their angular speeds and linear speeds will be

In an atom two elerctrons move aroundhe nucleus in circulart orbits ro radii ( R) and ( 4 r) . The ratio of the time taken by them to complete one revolution is :

Two spheres of radii R_(1) and R_(2) are made of the same material and are at the same temperature. The ratio of their thermal capacities is:

A particle moves along a circular path of radius R. The distance and displacement of the particle after one complete revolution is

A particle is moving along circular path of radius 40 m with a uniform speed of 20m//s . Then the time taken for the particle to complete half revolution will be

A particle moves along a circular path of radius R. The distance and displacement of a particle after one completer revolution is

two metal spheres of radii R_(1) and R_(2) are charged to the same potential. The ratio of charges on the spheres is

Three particles describes circular path of radii r_(1),r_(2) and r_(3) with constant speed such that all the particles take same time to complete the revolution. If omega_(1),omega_(2),omega_(3) be the angular velocity v_(1),v_(2),v_(3) be linear velocities and a_(1),a_(2),a_(3) be linear acceleration than :