A current is made of two components a `dc` component `i_(1) = 3A` and an `ac` component `i_(2) = 4 sqrt(2) sin omega t`. Find the reading of hot wire ammeter?

A current is made up of two components 3 A de component and ac component given by I = 4 sin (omega)t A . The effective value of current is

In a wire direct current i_(1) and an AC current i_(2)=i_(20) sin omega t is superposed. Find the RMS value of current in wire.

An dielectric current has both DC and AC components . DC component of BA and AC component is given as I = 6sin omega t. So underset(rms)(I) value of resulatant current is

If i_(1) = i_(0) sin (omega t), i_(2) = i_(0_(2)) sin (omega t + phi) , then i_(3) =

The x- component of a certain vector in x-y plane is 2 units and y- component is +2sqrt(3) units. What is the magnitude of the vector.

The resultant current wave in an electric circuit consists of two components (i) a 10 A d.c. component and (ii) a 50 Hz a.c. Component, having a sinusoidal wave form and which has the peak value of 10 A. If a time t=0, the a.c. component has zero value and dI//dt is positive, then the average value of the resultant current over a complete cycle is

The x- component of a certain vertor is 2 units and y- component is + 2sqrt3 units. What is the magnitude of vector.

If i_(1) = 3 sin omega t and i_(2) =6 cos omega t , then i_(3) is

Two SHM's are represented by y_(1) = A sin (omega t+ phi), y_(2) = (A)/(2) [sin omega t + sqrt3 cos omega t] . Find ratio of their amplitudes.

If i_(1)=3 sin omega t and (i_2) = 4 cos omega t, then (i_3) is