Suppose the emf of the battery, the circuit shown varies with time `t` so the current is given by `i(t)=3+5t`, where `i` is in amperes & `t` is in seconds. Take `R=4Omega, L=6H` & find an expression for the battery emf as function of time.

Position vector vec(r) of a particle varies with time t accordin to the law vec(r)=(1/2 t^(2))hat(i)-(4/3t^(1.5))hat(j)+(2t)hat(k) , where r is in meters and t is in seconds. (a) Find suitable expression for its velocity and acceleration as function of time (b) Find magnitude of its displacement and distance traveled in the time interval t=0 to 4 s .

In the circuit shown in figure switch S is closed at time t=0 Current I from the battery at time t is given by

In the circuit shown, charge q varies with time 't' as q=t^(3)-t^(2)+4t , where q is in coulombs and time 't' is in second. Find V_(AB)(V_(A)-V_(B)) in volts at time t=1 sec

The current in a wire varies with time according to the equation I = 4 +2 t. where I is in ampere and t is in second. Calculate the quantity of charge that passes through a cross section of the wire during the tiem t = 2s, to t=6s.

The current in conductor varies with time t as I = 2 t + 3 t^(2) where I is in ampere and t in seconds. Electric charge flowing through a section of the conductor during t = 2 sec to t = 3 sec is

In the circuit as shown,the charge varies with time t as q=t^(3)-4 ,where q is in coulombs and t is in seconds.Where at t=2 , the potential difference between A and B, V_(A)-V_(B) in volts is

In the circuit shown, switch S is closed at time t = 0 . Find the current through the inductor as a function of time t .

The current in a wire varies with time according to the equation I = 4 + 2t where I is in ampere and t is in sec. Calculate the quantity of charge which has passed through a cross-section of the wire during the time t = 2 sec. To t = 6 sec.