The accleration of a particle as seen from two frames `S_(1)` and `S_(2)` have equal magnitudes 4 `m//s^(2)`

Acceleration of a particle as seen from two reference frames 1 and 2 has magnitude 3 m//s^(2) and 4 m//s^(2) respectively. What can be magnitude of acceleration of frame 2 with respect to frame 1?

The magnitude of acceleration of a particle as seen by observer A is a m//s^(2) and that observed by Bis b m//s^(2) . If magnitude of acceleration of A with respect to B is x m//s^(2) then indicate the correct statements is :

A particle is found to be at rest when seen from a frame S_(1) and moving with a constant velocity when seen from another frame S_(2) . Select the possible options :

A particle is found to be at rest when seen from a frame S_(1) and moving with a constant velocity when seen from another frame S_(2) . Select the possible options :

A particle is found to be at rest when seen from a frame S_(1) and moving with a constant velocity when seen from another frame S_(2) . Select the possible options :

Statement I: A particle is found to be a rest when seen from a frame S_(1) and moving with a constant velocity when seen from another frame S_(2) . We can say both the frames are inertial. Statement II: All frames moving uniformly with respect to an inertial frame are themselves inertial.

Statement I: A particle is found to be a rest when seen from a frame S_(1) and moving with a constant velocity when seen from another frame S_(2) . We can say both the frames are inertial. Statement II: All frames moving uniformly with respect to an inertial frame are themselves inertial.

Velocity and accleration of a [article at time t=0 are vecu=(2hati+3hatj) m/s and veca=(4hati+2hatj)m//s^(2) respectively. Find the velocity and dispalcement of the particle at t-2s.