Three plates `A, B, C` each of area `50 cm^(2)` have separation `3 mm` between `A` and `3 mm` between `B` and `C`. The energy stored when the plates area fully charged is

Consider the arrangement of three plates X,Y and Z each of the area A and separatioin d . The energy sotred when the plates are fully charged is

Consider the arrangement of three plates X,Y and Z each of the area A and separatioin d . The energy sotred when the plates are fully charged is

Consider the arrangement of three plates X,Y and Z each of the area A and separation d . Find the energy stored when the plates are fully charged.

A parallel plate capacitor of area 100 cm^(2) and plate separation 8.85 mm is charged to a potential difference of 100 V when air is used between the plates. The capacitor is now isolated and air is replaced by glass (epsi_(r) - 5) , then:

Three plates A,B and C each of area 0.1m^(2) are separated by 0.885 mm from each other as shown in the figure. A 10 V battery is used to charge the system. The enegry stored in the system is

The area of the plates of a capacitor is 50cm^(2) each and the separation between them is 1mm. The space between the plates is filled with a material of dielectric constant 4. the capacitor, initially uncharged, is connected to a battery of EMF 50 V. the work done by the battery until the capacitor gets completely charged is (in muJ ).

A parallel plate condenser has plates of area 200 cm^(2) and separation 0.05 cm. The space between plates have been filled with a dielectric having k = 8 and then charged to 300 volts. The stored energy

A parallel plate capacitor is constructed with plates of area 0.0280 m^(2) and separation 0.550 mm . Find the magnitude of the charge on each plate of this capacitor when the potential between the plates is 20.1 V

A parallel-plate condenser of area 100 cm^(2) , plate separation 5 mm is charged to a p.d. of 100 V when air is used between the plates. If now air is replaced by glass (epsilon_(r)=6) calculate (a) the new capacity, (b) the new p.d. and (c) the loss of energy. Account for the loss of energy.

A parallel plate capacitor of capacitance 3muF has total charge +15muC on one plate and total charge -15muC on the other plate. The separation between the plates is 1mm. The electric field between the plates has magnitude: (in N/C)