The electric current in a circuit is given by `i=3t`. Find the `rms` current for the period `t=0` to `t=2` sec ?

The electric current in a circuit is given by I = 3 sin omegat + 4 cos omegat. The rms current is

The electric current in a circuit is given by i=3t Here, t is in second and I in ampere. The rms current for the period to=0 to t=1 s is

Current in an ac circuit is given by I= 3 sin omega t + 4 cos omega t, then

The electric current in AC circuit is given by the relation i = 3sinomegat + 4cosomegat . The rms value of the current in the circuit in ampere is

The current in a discharging LR circuit is given by I = i_0 e^(-t/tau) where tau is the time constant of the circuit. Calculate the rms current for the period t = 0 to t = tau .

The current in a discharging LR circuit is given by I = i_0 (t/tau) where tau is the time constant of the circuit. Calculate the rms current for the period t = 0 to t = tau .

The alternating current in a circuit is given by I = 50sin314t . The peak value and frequency of the current are

The current through an inductor of 1H is given by i =3t sin t . Find the voltage across the inductor.

The electric curren in a charging R-C circuit is given by i=i_0e^(-t/RC) when i_0 , R and C aere constant parameters of the circuit and t is time. Find the rate of change of current at a. t=0, b. t=RC c. t=10RC .

The electric current in a discharging R-C circuit is given by i=i_0e^(-t/(RC)) where i_0 R and C are constant parameters and t is time. Let i_0=2.00A , R=6.00xx10^5 ohm and C=0.500 muF . a. Find the current at t=0.3 s. b. Find the rate of change of current at t=0.3 s. Find approximately the current at t=0.31 s.