In the circuit shown in figure q varies with time t as `q=(16t^(2))`. Here q is in coulomb and t in second.

Find `V_(ab)=(V_(a)-V_(b)) at t=3s`

In the circuit shown in figure q varies with time t as q=(16t^(2)) . Here q is in coulomb and t in second. Find V_(ab) "at" t=5s

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

In the circuit shown in figure find V_(ab) at 1 s

In the figure shown q is in coulomb and t in second. At time t=1 s

In the circuit shown in figure, circuit is closed at time t=0 . At time t=ln(2) second

The speed of a particle moving in a circle of radius r=2m varies with time t as v=t^(2) , where t is in second and v in m//s . Find the radial, tangential and net acceleration at t=2s .

The velocity v of a body moving along a straight line varies with time t as v=2t^(2)e^(-t) , where v is in m/s and t is in second. The acceleration of body is zero at t =

If velocity v varies with time t as v=2t^(2) , then the plot between v and t^(2) will be given as :

If velocity v varies with time t as v=2t^(2) , then the plot between v and t^(2) will be given as :

The speed of a particle moving in a circle of radius r=2m varies witht time t as v=t^(2) , where t is in second and v in m//s . Find the radial, tangential and net acceleration at t=2s .