The average value of an alternating voltage `V=V_(0) sin omega t ` over a full cycle is

What is the average value of atlernating current, I = I_(0) sin omega t over time interval t = pi//omega to t = pi//omega ?

The average value of alternating current I=I_(0) sin omegat in time interval [0, pi/omega] is

Give expression for average value of a.c. voltage V = V_(0) sin omega t over interval t = 0 to t = (pi)/(omega)

The average value of a.c. voltge E =E_(0) sin omega t over the time interval t = 0 to t = pi//omega is

The average value of alternating current over a complete cycle is

If the peak value of an alternating emf is 15V, what is its mean value over half cycle?

The average value for the saw-tooth voltage of peak value of V_(0) over half the cycle as shown in figure is

There is a series LCR curcuit (as shown). An alternating source of emf having voltage V=V_(0) sin omega t is applied between M & N . Here V_(M)-V_(N)=V_(0) sin omega t and 1/(omegaC)-omegaL=R The potential difference across R has got a phase difference of theta of alternating source of enf. where

There is a series LCR curcuit (as shown). An alternating source of emf having voltage V=V_(0) sin omega t is applied between M & N . Here V_(M)-V_(N)=V_(0) sin omega t and 1/(omegaC)-omegaL=R R.M.S value of potential difference across capacitor will be

There is a series LCR curcuit (as shown). An alternating source of emf having voltage V=V_(0) sin omega t is applied between M & N . Here V_(M)-V_(N)=V_(0) sin omega t and 1/(omegaC)-omegaL=R Potential difference across inductor i.e. V_(Q)-V_(N) is