A plane wave `zeta= A cos (omega t-kx)` propagates in the reference frame S. find the equation of this wave in a refreence frame S' moving in the +ve direction of x-axis with a constant velocity V relative to S.

A train of length l=350m starts moving rectilinearly with constant acceleration w=3.0*10^-2 m//s^2 , t=30s after the start the locomotive headlight is switched on (event 1), and tau=60s after that event the tail signal light is switched on (event 2). Find the distance between these events in the reference frames fixed to be train and to the Earth. How and at what constant velocity V relative to the Earth must a certain reference frame K move for the two events to occur in it at the same point?

A plane sound wave is travelling in a medium. In reference to a frame A, its equation is y=a cos (omegat-kx) . Which refrence to frame B, moving with a constant velocity v in the direction of propagation of the wave, equation of the wave will be

Two events occur simultaneously at separated points on the y axis of reference frame S. According to an observer moving in the positive x direction

A wave is represented by the equation y=0.5 sin (10 t-x)m . It is a travelling wave propagating along the + x direction with velocity