An AM wave is represented by equation `v=5 [1+0.6 cos(6280t)]sin (211 xx10^4t)`V. if Am drives a resistance of `2k Omega` then

An amplitude modulated wave is represented by the expression v_m=5(1+0.6 cos 6280 t) sin ( 211 xx 10^(4)t) volts. The miniumum and maximum amplitudes of the amplitude modulated wave are , respectively :

An AM wave is given by V=1500[1+0.5sin62800t]sin(5.26xx10^(5)t) . The modulating frequency is

An amplitude modulated wave is represented by C_m = 10(1+ 0.2 sin 12560 t ) sin (1.11 x 10^4 t) V . The modulating frequency in KHz will be

If light wave is represented by the equation y = A sin (kx - omega t) . Here y may represent

An AM wave is given by V=1500[1+0.5sin12560t]sin(5.26xx10^(5)t) . The modulating frequency is

A wave is represented by the equation, y = 0.1 sin (60 t + 2x) , where x and y are in metres and t is in seconds. This represents a wave

Two wave are represented by equation y_(1) = a sin omega t and y_(2) = a cos omega t the first wave :-

The amplitude of a wave represented by the equation y=3sin(5x-0.5t)+4cos(5x-0.5t) , is

The displacement of two identical particles executing SHM are represented by equations x_(1) = 4 sin (10t+(pi)/(6)) & x_(2) = 5 cos (omegat) For what value of omega , energy of both the particles is same.

A wave is represented as e=10 sin (10^(8)t+6 sin 1250t) then the modulating index is