358559 The inductance of a coil is \(L = 10H\) and resistance \(R = 5\Omega \). If applied voltage of battery is \(10\;V\) and it switches OFF in \(1\;ms\), then find the value of induced emf of inductor.

358560 Statement A :
The self-inductance of a long solenoid is inversely proportional to the area of cross-section.
Statement B :
Self inductance of a solenoid depends on total number of turns in it.

358561 The current in a self-inductance \(L = 40\,mH\) is to be increased uniformly from \(1\;A\) to \(11\;A\) in \(4\;ms\). The induced emf in the inductor during the process is

358562 In the circuit as shown, charge \({q}\) varies with time \({t}\) as \({q=\left(t^{2}-4\right)}\) where \({q}\) is in \(C\) and time \({t}\) is in seconds. The value of \({V_{A B}}\) at time \({t=3 \sec}\) is

358559 The inductance of a coil is \(L = 10H\) and resistance \(R = 5\Omega \). If applied voltage of battery is \(10\;V\) and it switches OFF in \(1\;ms\), then find the value of induced emf of inductor.

358560 Statement A :
The self-inductance of a long solenoid is inversely proportional to the area of cross-section.
Statement B :
Self inductance of a solenoid depends on total number of turns in it.

358561 The current in a self-inductance \(L = 40\,mH\) is to be increased uniformly from \(1\;A\) to \(11\;A\) in \(4\;ms\). The induced emf in the inductor during the process is

358562 In the circuit as shown, charge \({q}\) varies with time \({t}\) as \({q=\left(t^{2}-4\right)}\) where \({q}\) is in \(C\) and time \({t}\) is in seconds. The value of \({V_{A B}}\) at time \({t=3 \sec}\) is

358559 The inductance of a coil is \(L = 10H\) and resistance \(R = 5\Omega \). If applied voltage of battery is \(10\;V\) and it switches OFF in \(1\;ms\), then find the value of induced emf of inductor.

358560 Statement A :
The self-inductance of a long solenoid is inversely proportional to the area of cross-section.
Statement B :
Self inductance of a solenoid depends on total number of turns in it.

358561 The current in a self-inductance \(L = 40\,mH\) is to be increased uniformly from \(1\;A\) to \(11\;A\) in \(4\;ms\). The induced emf in the inductor during the process is

358562 In the circuit as shown, charge \({q}\) varies with time \({t}\) as \({q=\left(t^{2}-4\right)}\) where \({q}\) is in \(C\) and time \({t}\) is in seconds. The value of \({V_{A B}}\) at time \({t=3 \sec}\) is

358559 The inductance of a coil is \(L = 10H\) and resistance \(R = 5\Omega \). If applied voltage of battery is \(10\;V\) and it switches OFF in \(1\;ms\), then find the value of induced emf of inductor.

358560 Statement A :
The self-inductance of a long solenoid is inversely proportional to the area of cross-section.
Statement B :
Self inductance of a solenoid depends on total number of turns in it.

358561 The current in a self-inductance \(L = 40\,mH\) is to be increased uniformly from \(1\;A\) to \(11\;A\) in \(4\;ms\). The induced emf in the inductor during the process is

358562 In the circuit as shown, charge \({q}\) varies with time \({t}\) as \({q=\left(t^{2}-4\right)}\) where \({q}\) is in \(C\) and time \({t}\) is in seconds. The value of \({V_{A B}}\) at time \({t=3 \sec}\) is