With t taken in seconds and I taken in amp, the variation of I follows the equation `t^(2) + I^(2) = 25`
What amount of Ag will be electrodeposited with this current flowing in the interval 0-5 second? (Ag=108)

The variation of current I through the cross section of the wire over a time interval of 12 second. Find the charge that flows in this wire in 12 seconds.

An alternating current is given by the equation i=i_(1)sin ω t+i_(2)cosω t .The rms current will be :

The flux in a closed circuit of resistance 20 Omega varies with time according to the equation phi = 6t^(2)-5t+1 . What is the induced current at time t = 0.25 second?

A current in a wire is given by the equation, . I=2t^(2)-3t+1 , the charge through cross section of : wire in time interval t=3s to t=5s is

A current in a wire is given by the equation, . I=2t^(2)-3t+1 , the charge through cross section of : wire in time interval t=3s to t=5s is

The current flowing through wire depends on time as, I = 3t^(2) + 2t + 5 The charge flowing through the cross - section of the wire in time t = 0 to t = 2 second is

The current flowing through wire depends on time as, 1 = 3t^(2) + 2t + 5 The charge flowing through the cross - section of the wire in time t = 0 to t = 2 second is

The current in a coil self inductance 2.0 H is increasing according to i= 2 sin t^(2) amp. Find the amount of energy spent during the period when current changes from to 2 A.

The magnetic flux passing through a metal ring varies with time t according to phi_(B)=6t^(3)-I8t^(2) , t is in second. The resistance of the ring is 3Omega . Determine the maximum current induced in the ring during the interval from t=0 to t=2sec .