268071 **Assertion (A) :** Two metal plates each of area A form a parallel plate capacitor. Now one plate is displaced up, then the capacitance of capacitor decreases.
**Reason (R) :** Due to displacing one plate, the overlapping area decreases, capacitance \(C=\frac{\varepsilon_{0} A}{d}\) decreases.

268072 **Assertion (A) :** Two plates of a parallel plate capacitor are drawn apart, keeping them connected to a battery. Next the same plates are drawn apart from the same initial condition, keeping the battery disconnected, then the work done in both cases are same.
**Reason (R) :** Capacitor plates have same charge in both cases and displacements of plates in both cases are also same.

268073 **Assertion (A) :** Two metallic plates placed side by side form three capacitors.
**Reason (R) :** The infinity and first face of first plate is one capacitor, the second face of first plate and first face of second plate forms second capacitor and the second face of second plate and infinity forms the third capacitor, but the capacitance of first and third capacitance are extremely small

268074 **Statement '\(A\) ':** The energy stored gets reduced by a factor ' \(K\) ' when the battery is disconnected after charging the capacitor and then thedielectric is introduced
**Statement ' \(B\) ':** The energy stored in the capacitor increases by a factor ' \(k\) ' when a dielectric is introduced between the plates with the battery present in the circuit

268071 **Assertion (A) :** Two metal plates each of area A form a parallel plate capacitor. Now one plate is displaced up, then the capacitance of capacitor decreases.
**Reason (R) :** Due to displacing one plate, the overlapping area decreases, capacitance \(C=\frac{\varepsilon_{0} A}{d}\) decreases.

268072 **Assertion (A) :** Two plates of a parallel plate capacitor are drawn apart, keeping them connected to a battery. Next the same plates are drawn apart from the same initial condition, keeping the battery disconnected, then the work done in both cases are same.
**Reason (R) :** Capacitor plates have same charge in both cases and displacements of plates in both cases are also same.

268073 **Assertion (A) :** Two metallic plates placed side by side form three capacitors.
**Reason (R) :** The infinity and first face of first plate is one capacitor, the second face of first plate and first face of second plate forms second capacitor and the second face of second plate and infinity forms the third capacitor, but the capacitance of first and third capacitance are extremely small

268074 **Statement '\(A\) ':** The energy stored gets reduced by a factor ' \(K\) ' when the battery is disconnected after charging the capacitor and then thedielectric is introduced
**Statement ' \(B\) ':** The energy stored in the capacitor increases by a factor ' \(k\) ' when a dielectric is introduced between the plates with the battery present in the circuit

268071 **Assertion (A) :** Two metal plates each of area A form a parallel plate capacitor. Now one plate is displaced up, then the capacitance of capacitor decreases.
**Reason (R) :** Due to displacing one plate, the overlapping area decreases, capacitance \(C=\frac{\varepsilon_{0} A}{d}\) decreases.

268072 **Assertion (A) :** Two plates of a parallel plate capacitor are drawn apart, keeping them connected to a battery. Next the same plates are drawn apart from the same initial condition, keeping the battery disconnected, then the work done in both cases are same.
**Reason (R) :** Capacitor plates have same charge in both cases and displacements of plates in both cases are also same.

268073 **Assertion (A) :** Two metallic plates placed side by side form three capacitors.
**Reason (R) :** The infinity and first face of first plate is one capacitor, the second face of first plate and first face of second plate forms second capacitor and the second face of second plate and infinity forms the third capacitor, but the capacitance of first and third capacitance are extremely small

268074 **Statement '\(A\) ':** The energy stored gets reduced by a factor ' \(K\) ' when the battery is disconnected after charging the capacitor and then thedielectric is introduced
**Statement ' \(B\) ':** The energy stored in the capacitor increases by a factor ' \(k\) ' when a dielectric is introduced between the plates with the battery present in the circuit

268071 **Assertion (A) :** Two metal plates each of area A form a parallel plate capacitor. Now one plate is displaced up, then the capacitance of capacitor decreases.
**Reason (R) :** Due to displacing one plate, the overlapping area decreases, capacitance \(C=\frac{\varepsilon_{0} A}{d}\) decreases.

268072 **Assertion (A) :** Two plates of a parallel plate capacitor are drawn apart, keeping them connected to a battery. Next the same plates are drawn apart from the same initial condition, keeping the battery disconnected, then the work done in both cases are same.
**Reason (R) :** Capacitor plates have same charge in both cases and displacements of plates in both cases are also same.

268073 **Assertion (A) :** Two metallic plates placed side by side form three capacitors.
**Reason (R) :** The infinity and first face of first plate is one capacitor, the second face of first plate and first face of second plate forms second capacitor and the second face of second plate and infinity forms the third capacitor, but the capacitance of first and third capacitance are extremely small

268074 **Statement '\(A\) ':** The energy stored gets reduced by a factor ' \(K\) ' when the battery is disconnected after charging the capacitor and then thedielectric is introduced
**Statement ' \(B\) ':** The energy stored in the capacitor increases by a factor ' \(k\) ' when a dielectric is introduced between the plates with the battery present in the circuit