The phase difference between the alternating current and voltage represented by the following equation `I=I_(0)sinomegat, E=E_(0)cos(omegat+pi//3)`, will be –

The phase difference between the alternating current and e.m.f. is pi//2 which of the following cannot be the constituent of the circuit?

An alternating current is given by the equation i=i_1sinomegat+i_2cosomegat . The rms current will be

What is the phase difference between two simple harmonic motions represented by x_(1)=A"sin"(omegat+(pi)/(6)) and x_(2)=A "cos"omegat ?

What is the phase difference between two simple harmonic motions represented by x_(1)=A"sin"(omegat+(pi)/(6)) and x_(2)=A "cos"omegat ?

In a series LCR circuit, an alternating emf (V) and current (I) are given by the equation V =V_0sinomegat,I=I_0sin(omegat+pi/3) The average power dissipated in the circuit over a cycle of AC is

In a series LCR circuit, an alternating emf (V) and current (I) are given by the equation V =V_0sinomegat,I=I_0sin(omegat+pi/3) The average power dissipated in the circuit over a cycle of AC is

The power dissipated in alternating circuit with voltage e=e_(0) sin omegat and current I=I_(0)sin(omegat-phi) is

In an a.c. circuit , phase difference between current and potential is pi//4 . The variation of I and E versus t is represented in the graph. If E = E_0 cos (100 t) , then the component of the circuit are