If two particles are moving on same circle or different circles in same plane with different angular velocities `omega_(1)` and `omega_(2)` and different time period `T_(1)`, and `T_(2)` in same sense, then the time taken by 2 to complete one revolution w.r.t particle l is

Two particles are projected from the same point with the same speed at different angles theta_(1) and theta_(2) to the horizontal. If their respectively times of flights are T_(1) and T_(2) and horizontal ranges are same then (a) theta_(1) + theta_(2) = 90^(@) (b) T_(1) = T_(2) tan theta_(1) (c) T_(1) = T_(2) tan theta_(2) (d) T_(1) sin theta_(2) = T_(2) sin theta_(1)

A particle is moving in a circle of radius R in such a way that at any instant the normal and tangential components of the acceleration are equal. If its speed at t=0 is u_(0) the time taken to complete the first revolution is :

A simple pendulum of length L_(1) has a time period T_(1) and of length L_(2) has a time period of T_(2) then the time period of pendulum of length (L_(1)+L_(2)) is

Two particles having mass M and m are moving in a circular path having radius R and r. If their time period are same then the ratio of angular velocity will be