The switches in figure and are closed at `=0` and reopended after al long time at `t = t_0`.

In the given circuit switch S_(2) is Kept closed and S_(1) is kept open for a very long time such that the system is in steady- state . Now S_(1) is also slosed keeping S_(2) closed. Current passing through inductor L time after S_(1) is closed , is :

In the given circuit switch S_(2) is Kept closed and S_(1) is kept open for a very long time such that the system is in steady- state . Now S_(1) is also slosed keeping S_(2) closed. Current passing through R just after S_(1) is closed , is :

An inductor (L = 0.03 H) and a resistor (R = 0.15 kOmega ) are connected in series to a battery of 15 V EMF in a circuit shown below The key K_1 has been kept closed for a long time. Then at t = 0, K_1 is opened and key K_2 is closed simultaneously. At t = 1 ms, the current in the circuit will be : (e^5 cong 150)

The position vector of a particle is given by vecr=vecr_(0) (1-at)t, where t is the time and a as well as vecr_(0) are constant. After what time the particle retursn to the starting point?

An emf of 20 V is applied at time t = 0 to a circuit containing in series 10 mH inductor and 5 Omega resistor. The ratio of the currents at time t = oo and t = 40 s is close to (take e^2 = 7.389)

A particle moving along x-axis has acceleration f , at time t , given by f = f_0 (1 - (t)/(T)) , where f_0 and T are constant. The particle at t = 0 has zero velocity. In the time interval between t = 0 and the instant when f = 0 , the particle's velocity (v_x) is :

A particle moves in X-direction with acceleration f from rest. This acceleration changes according to f = f _(0) (1- (t)/(T)). and T are constant. t = 0 and for if any negative time interval if f = 0, then velocity of particle is ......

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. The displacement time graph will be best represented by :-

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. Average speed from t=0 to t=70 s will be :-

A car is moving on a straight road. The velocity of the car varies with time as shown in the figure. Initially (at t=0), the car was at x=0 , where, x is the position of the car at any time 't'. The maximum displacement from the starting position will be :-