Equation of a standing wave is expressed as `y = 2A sinomegat coskx`. In the equation, quantity `omega//k` represents

Equation of a standing wave is generally expressed as y=2Asinomegatcoskx . In the equation quantity (omega)/(k) represents

The equation of a light wave is written as y=Asin(kx-omegat) . Here y represents

In the Schrodinger's wave equation Psi represents

Prove that the equation y = a sin omegat does not satisfy the wave equation and hence it does not represent a wave.

In a stationary wave represented by y=4sin(omega t) cos(kx) cm, the amplitude of the component progressive wave is

The displacement of a progressive wave is represented by y = A sin (omegat - kx), where x is distance and t is time. Write the dimensional formula of (i) omega and (ii) k.

Rate of a reaction can be expressed by Arrhenius equation as: k = Ae^(-E_(a)//RT) In this equation, E_(a) represents:

Equations of a stationary and a travelling waves are as follows y_(1) = sin kx cos omega t and y_(2) = a sin ( omega t - kx) . The phase difference between two points x_(1) = pi//3k and x_(2) = 3 pi// 2k is phi_(1) in the standing wave (y_(1)) and is phi_(2) in the travelling wave (y_(2)) then ratio phi_(1)//phi_(2) is

The equation, 2x^2+ 3y^2-8x-18y+35= K represents

The oscillations represented by curve 1 in the graph are expressed by equation x=Asinomegat. The equation for the oscillation represented by curve 2 is expressed as