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

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

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

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 :

The acceleration of a particle is zero as measured from an inertial frame of reference. Can we conclude that no force acts on the particle?

The acceleration of a particle is zero as measured from an inertial frame of reference. Can we conclude that no force acts on the particle?

A particle is performing circular motion of radius 1 m. Its speed is v=(2t^(2)) m//s . What will be magnitude of its acceleration at t=1s .

A particle is performing circular motion of radius 1 m. Its speed is v=(2t^(2)) m//s . What will be magnitude of its acceleration at t=1s .

A particle is performing circular motion of radius 1 m. Its speed is v=(2t^(2)) m//s . What will be magnitude of its acceleration at t=1s .

A particle is observed from two frames S_1 and S_2. Lthe frame S_2 moves with respect to S_1 with an acceleration a. Let F_1 and F_2 be the pseudo forces on the particle when seen from S_1 and S_2 respectively. Which of the following are not possible/