The charge flowing throug a conductor beginning with time to=0 is given by the formula `q=2t^(2)+3t+1` (coulombs). Find the current `i=(dq)/(dt)` at the end of the 5th seconds.

Charge passing through a conductor carrying current is given by Q = 5t^(2) + 3t +1 , How much amount of current will pass in t = 5 s ?

Electric current in a wire is time rate of flow of charge. The charge in coulombs that passes through a wire after t seconds is given by the function q(t)=t^(2)-2t^(2)+5t+2 . Determine the average current (in coulmbe per second) during the first two seconds.

The position of an object, moving in one dimension, is given by the formula x (t) = (4.2 t ^(2) + 2.6)m. Calculate its (i) average velocity in the time interval fromj t =0 to t = 3 s and (ii) Instantaneous velocity at t=3s. [ (d (x ^(x)))/( dt ) = nx ^(n -1)]

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

Charge passing through the cross-section of a conductor h given by Q = B' + A' t^(2) . What will be the current in ampere at lime t = 10 s ?

The displacement of an object varies with time according to the equation, ty = ((3)/(8) t ^(2) 0 3t + 5) m. Find the instataneous velocity at t = 4s.

The potential difference across a 4 H inductor vary with time is as shown. The current is Zero at t = 0, Then the current at time t =2s

The velocity of a body of mass 2 kg as a function of t is given by v(t) = 2t hati + t^(2)hatj . Find the momentum and the force acting on it, at time t = 2s.

A car starts from a point P at time t = 0 seconds and stops at point Q. The distance x, in metres, covered by it, in t seconds is given by x=t^(2)(2-(t)/(3)) Find the time taken by it to reach Q and also find distance between P and Q.

Force applied on a body is given by F=(3t^(2)-2t+10) N where t is in seconds. Find impulse imparted in t=0 to t=2 sec.