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.

The charge flowing through a conducting wire with time t is given by the formula q=2t^(2)+3t+1 (coulombs). Find the current i=dq//dt at the end of the 5^(th) second.

A change Q flowing through a conductor , beginning with time t=0, is given by Q=3t^(2)+2t+ . If the intensity of the current is the rate of change of Q w.r.t. t, then the intensity at the end of the fifth second is

The charge flowing in a conductor varies with times as Q = at - bt^2. Then, the current

The charge flowing through a conductor varies with time as q= 8 t - 3t^(2)+ 5t^(3) Find (i) the initial current (ii) time after which the current reaches a maximum value of current

The charge passing through a conductor in a function of time and given as q = 2t ^2 - 4 t + 3 coulomb. Calculate (i) current though the conductor (ii) potential difference across it at t = 4 second. Given resistance of conductor is 4 ohm.

If charge passing through a conductor of uniform cross section 18cm^(2) is given by q= (2t^(2)+3t)mc .Where t in sec.Then the current density at t=1.5sec in

The rate of flow of charge in a circuit is called electric current. In other words, it is the amount of charge flowing per second. It is denoted by the letter I. If Q is the charge which is flowing through a conductor in time t, then current is given by i = Q/t Unit of current: The S.I unit of current is ampere and it is denoted by the letter 'A'. The S.I unit of Q is coulomb and that oft is second. Thus, the S.I unit of electric current is ("1 coulomb")/("1 second") = 1A How much time is required for 10 coulombs of charge to flow past a point if the rate of flow (current) is 2 amperes?

The rate of flow of charge in a circuit is called electric current. In other words, it is the amount of charge flowing per second. It is denoted by the letter I. If Q is the charge which is flowing through a conductor in time t, then current is given by i = Q/t Unit of current: The S.I unit of current is ampere and it is denoted by the letter 'A'. The S.I unit of Q is coulomb and that oft is second. Thus, the S.I unit of electric current is ("1coulomb")/("1 second") = 1A How much current must there be in a circuit if 100 coulombs flow past a point in the circuit in 4 seconds?

The charge flowing in a conductor varies with time so q = 2t - 6t^(2)+10t^(3) where q is in coloumn and r in second Find (i) the initial current (ii) the time after which the value of current reaches is maximum value (ii) the maximum or minimum value of current

The rate of flow of charge in a circuit is called electric current. In other words, it is the amount of charge flowing per second. It is denoted by the letter I. If Q is the charge which is flowing through a conductor in time t, then current is given by i = Q/t Unit of current: The S.I unit of current is ampere and it is denoted by the letter 'A'. The S.I unit of Q is coulomb and that oft is second. Thus, the S.I unit of electric current is ("1 coulomb")/("1 second") = 1A If there is a current of 10 amperes in a circuit for 10 minutes, what quantity of electric charge flows in through the circuit?