358598 Assertion :
A spark occurs between the poles of a switch when the switch is opened.
Reason :
Current flowing in the conductor produces magnetic field.

358599 A flat circular coil \(10\,cm\) radius has 200 turns. The coil is connected to a capacitor of capacity \(20\,\mu F\). It is placed in a uniform magnetic field which decreases at a rate of 0.01 tesla per second. The charge on the capacitor is

358600 In the circuit of figure, the battery emf is \(50\,V\), the resistance is \(200\,\Omega \), and the capacitance is \(1.0\,\mu F\). The switch \({S}\) is closed for a long time interval, and zero potential difference is measured across the capacitor.

After the switch is opened, the potential difference across the capacitor reaches a maximum value of \(100\,V\) The value of the inductance is

358601 Assertion :
The possibility of an electric bulb fusing is higher at the time switching ON and OFF.
Reason :
Inductive effects produces a surge at the time of switch OFF and switch ON

358598 Assertion :
A spark occurs between the poles of a switch when the switch is opened.
Reason :
Current flowing in the conductor produces magnetic field.

358599 A flat circular coil \(10\,cm\) radius has 200 turns. The coil is connected to a capacitor of capacity \(20\,\mu F\). It is placed in a uniform magnetic field which decreases at a rate of 0.01 tesla per second. The charge on the capacitor is

358600 In the circuit of figure, the battery emf is \(50\,V\), the resistance is \(200\,\Omega \), and the capacitance is \(1.0\,\mu F\). The switch \({S}\) is closed for a long time interval, and zero potential difference is measured across the capacitor.

After the switch is opened, the potential difference across the capacitor reaches a maximum value of \(100\,V\) The value of the inductance is

358601 Assertion :
The possibility of an electric bulb fusing is higher at the time switching ON and OFF.
Reason :
Inductive effects produces a surge at the time of switch OFF and switch ON

358598 Assertion :
A spark occurs between the poles of a switch when the switch is opened.
Reason :
Current flowing in the conductor produces magnetic field.

358599 A flat circular coil \(10\,cm\) radius has 200 turns. The coil is connected to a capacitor of capacity \(20\,\mu F\). It is placed in a uniform magnetic field which decreases at a rate of 0.01 tesla per second. The charge on the capacitor is

358600 In the circuit of figure, the battery emf is \(50\,V\), the resistance is \(200\,\Omega \), and the capacitance is \(1.0\,\mu F\). The switch \({S}\) is closed for a long time interval, and zero potential difference is measured across the capacitor.

After the switch is opened, the potential difference across the capacitor reaches a maximum value of \(100\,V\) The value of the inductance is

358601 Assertion :
The possibility of an electric bulb fusing is higher at the time switching ON and OFF.
Reason :
Inductive effects produces a surge at the time of switch OFF and switch ON

358598 Assertion :
A spark occurs between the poles of a switch when the switch is opened.
Reason :
Current flowing in the conductor produces magnetic field.

358599 A flat circular coil \(10\,cm\) radius has 200 turns. The coil is connected to a capacitor of capacity \(20\,\mu F\). It is placed in a uniform magnetic field which decreases at a rate of 0.01 tesla per second. The charge on the capacitor is

358600 In the circuit of figure, the battery emf is \(50\,V\), the resistance is \(200\,\Omega \), and the capacitance is \(1.0\,\mu F\). The switch \({S}\) is closed for a long time interval, and zero potential difference is measured across the capacitor.

After the switch is opened, the potential difference across the capacitor reaches a maximum value of \(100\,V\) The value of the inductance is

358601 Assertion :
The possibility of an electric bulb fusing is higher at the time switching ON and OFF.
Reason :
Inductive effects produces a surge at the time of switch OFF and switch ON