A parallel plate capacitor is charged from a cell and then isolated from it. The separation between the plates is now increased

A parallel-plate capacitor is charged from a cell and then disconnected from the cell. The separation between the plates is now double.

A parallel plate capacitor is charged completely and then disconnected from the battery. IF the separation between the plates is reduced by 50% and the space between the plates if filled with a dielectric slab of dielectric constant 10, then the potential difference between the plates

A parallel plate capacitor is charged and then isolated. On increasing the plate separation

A parallel- plate capacitor is charged from a cell and then isolated from it. A dielectric slab of dielectric constant K is now introduced in the region between the plated, filling half of it. The electric intensity in the diaelectric is E_(1) and that in air is E_(2) .

STATEMENT-1: A parallel plate capacitor is charged by a battery. The battery is then disconnected. If the distance the plates is increased, the enegry strored in the capacitor will decrease. STATEMENT-2: Work has to be done to increase the separation between the plates of a charged capacitor.

A parallel plate air capacitor having separation 'a' between the plates is charged to Q and battery is disconnected from the capacitor. Now the separation between the plates is increased to '2a' slowly by external force. The work done by external force is numerically equal to:

A parallel plate capacitor is charged. If the plates are pulled apart

A parallel plate capacitor has area of each plate A , the separation between the plates is d . It is charged to a potential V and then disconnected from the battery. The amount of work done in the filling the capacitor Completely with a dielectric constant k is.