358701 The magnetic flux through a circuit of resistance \(R\) changes by an amount \(\Delta \phi\) in time \(\Delta t\). The total quantity of electric charge \(Q\) which passes during this time through any point of circuit is given by

358702 As shown in the figure, a magnet is moved with a fast speed towards a coil at rest. Due to this induced electromotive force, induced current and induced charge in the coil is \(E\), \(I\) and \(Q\) respectively. If the speed of the magnet is doubled, the incorrect statements is

358703 A current \({i=2.5(1+2 t) \times 10^{3} {~A}}\) increases at a steady rate in a long straight wire. A small circular loop of radius \({10^{-3} {~m}}\) has its plane parallel to the wire and its centre is placed at a distance of 1 \(m\) from the wire. If the resistance of the loop is \({5 \pi \times 10^{-4} \Omega}\), find the magnitude of the induced current in the loop.

358704 Statement A :
The presence of large magnetic flux through a coil produces current in the coil.
Statement B :
Magnetic flux is essential to maintain an induced current in the coil.

358701 The magnetic flux through a circuit of resistance \(R\) changes by an amount \(\Delta \phi\) in time \(\Delta t\). The total quantity of electric charge \(Q\) which passes during this time through any point of circuit is given by

358702 As shown in the figure, a magnet is moved with a fast speed towards a coil at rest. Due to this induced electromotive force, induced current and induced charge in the coil is \(E\), \(I\) and \(Q\) respectively. If the speed of the magnet is doubled, the incorrect statements is

358703 A current \({i=2.5(1+2 t) \times 10^{3} {~A}}\) increases at a steady rate in a long straight wire. A small circular loop of radius \({10^{-3} {~m}}\) has its plane parallel to the wire and its centre is placed at a distance of 1 \(m\) from the wire. If the resistance of the loop is \({5 \pi \times 10^{-4} \Omega}\), find the magnitude of the induced current in the loop.

358704 Statement A :
The presence of large magnetic flux through a coil produces current in the coil.
Statement B :
Magnetic flux is essential to maintain an induced current in the coil.

358701 The magnetic flux through a circuit of resistance \(R\) changes by an amount \(\Delta \phi\) in time \(\Delta t\). The total quantity of electric charge \(Q\) which passes during this time through any point of circuit is given by

358702 As shown in the figure, a magnet is moved with a fast speed towards a coil at rest. Due to this induced electromotive force, induced current and induced charge in the coil is \(E\), \(I\) and \(Q\) respectively. If the speed of the magnet is doubled, the incorrect statements is

358703 A current \({i=2.5(1+2 t) \times 10^{3} {~A}}\) increases at a steady rate in a long straight wire. A small circular loop of radius \({10^{-3} {~m}}\) has its plane parallel to the wire and its centre is placed at a distance of 1 \(m\) from the wire. If the resistance of the loop is \({5 \pi \times 10^{-4} \Omega}\), find the magnitude of the induced current in the loop.

358704 Statement A :
The presence of large magnetic flux through a coil produces current in the coil.
Statement B :
Magnetic flux is essential to maintain an induced current in the coil.

358701 The magnetic flux through a circuit of resistance \(R\) changes by an amount \(\Delta \phi\) in time \(\Delta t\). The total quantity of electric charge \(Q\) which passes during this time through any point of circuit is given by

358702 As shown in the figure, a magnet is moved with a fast speed towards a coil at rest. Due to this induced electromotive force, induced current and induced charge in the coil is \(E\), \(I\) and \(Q\) respectively. If the speed of the magnet is doubled, the incorrect statements is

358703 A current \({i=2.5(1+2 t) \times 10^{3} {~A}}\) increases at a steady rate in a long straight wire. A small circular loop of radius \({10^{-3} {~m}}\) has its plane parallel to the wire and its centre is placed at a distance of 1 \(m\) from the wire. If the resistance of the loop is \({5 \pi \times 10^{-4} \Omega}\), find the magnitude of the induced current in the loop.

358704 Statement A :
The presence of large magnetic flux through a coil produces current in the coil.
Statement B :
Magnetic flux is essential to maintain an induced current in the coil.