The average value of current for the current shown for time period 0 to `T/2` s

Find the avarage value of current (in A) shown graphically in fig. From t=0 to t=2 s . .

Electric current in a circuit is given as a function of time as below . I=I_(0)((3t)/(2tau)) Calculate the rms value of current for the time period t=0 to 2tau .

An alternating current I=I_(0)sin omega t is flowing in a circuit.The ratio of rms current in the interval of 0 to T the average current in the circuit for the time interval from T/8 to 3T/8 (Where T is time period) is :

An alternating current I=I_(0) sin omega t is flowing in a circuit.The ratio of rms current in the interval of 0 to T the average current in the circuit for the time interval from T/8 to 3T/8 (Where T is time period) is :

An alternating current I=I_(0)sin omega t is flowing in a circuit.The ratio of rms current in the interval of 0 to T the average current in the circuit for the time interval from T/8 to 3T/8 (Where T is time period) is:

An alternating current I=I_(0)sinwt is flowing in a circuit. The ratio of rms current in the interval of 0 to T to the average current in the circuit for the time interval from T/8 to 3T/8 (Where T is time period) is :

If the current in an A C circuit is given by i=2 sqrt(2) sin (pi t +pi / 4) , then the average value of current during time t= 0 to t=1 s is (m)/(pi) ampere. Find m .

The average current in terms of l_(0) for the waveform shown is

Show that average value of radiant flux density 'S' over a single period 'T' is given by S=1/(2cmu_0)E_0^2 .