An alternating current is given by the equation `i = (i_1 cos omegat + i_2 sin omegat)`. The rms current is given by ……..

S.I. unit of current is :-

The current from an A.C. source is given by I = 2cos(omegat + phi) then rms value of current is ……

If instantaneous current is given by i=4 cos (omegat+phi) ampere, than the rms value of current is ...... ampere.

The alternating current in a circuit is described by the graph shown in figure. Show rms current in this graph.

The displacement vector of a particle of mass m is given by r(t) = hati A cos omegat + hatj B sin omegat . (a) Show that the trajectory is an ellipse. (b) Show that F= momega^(2)r

The function sin^(2) (omegat) represents.

A particle moves in the x-y the accoding to the equation, r = (hati + 2hatj) A cos omegat . The motion of the particle is

In A.C. circuit, when E = E_0 sin omegat supply applied, current is obtained in circuit I=I_0 sin (omegat-pi/2) , so power consumed is circuit will be ……

What is the value of current I in given circuits (a)

Statement-1 : Two longitudinal waves given by equation y_(1)(x,t)=2asin(omegat-kx) and y_(2)(x,t)=a sin (2 omegat-2kx) will have equal intensity. Statement-2 : Intensity of waves of given frequency in same medium is proportional to square of amplitude only.