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

The switch S shown in figure is kept closed for a long time and is then opened at t=0 .Find the current in the middle 10(Omega) resistor at t=1.0ms .

Consider the circuit shown in figure.(a) find the current through the battery a long time after the switch S is closed. (b) Suppose the switch is again opened at t = 0. What is the time constant of the discharging circuit? (c ) Find t current through the inductor after one time constant.

Consider the situation shown in figure (31-E23 ) . The switch S is open for a long time and then closed . (a) Find the charge flown through the battery when the switch S is closed (b)Find the work done by the battery .

Consider the situation shown in figure.The switch is closed at t=0 when the capacitor C_(1) as a function of time t .

Two identical capacitors A and B are charged to the same potential V and are connected in two circuits at t = 0 as shown in figure. The charge of the capacitors at a time t = CR are respectively -

A particle is kept at rest at the origin. A constant force rarrF starts acting on it at t = 0 . Find the speed of the particle at time t.

The current through an element is shown in the figure. Determine the total charge that pass through the element at a) t= 0s, b) t = 2s, c) t = 5s

A particle moving along x-axis has accelaration f, at time t , given by f=f_0(1− t/ T ​ ) where f_0 and T are constants . 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 (nu_x) is:

The upward speed v(t) of a rocket at time t is approximated by v(t)=at^(2)+bt+c,0letle100 where a, b and c are constants. It has been found that the speed at times t=3, t=6 and t=9 seconds are respectively, 64, 133, and 208 miles per second respectively. Find the speed at time t=15 seconds. (Use Gaussian elimination method.)

The acceleration of a cart started at t=0 varies with time as shown in figure. Find the distance travelled in 30 seconds and draw the position time graph.