Answer: (A) Zero
Explanation:
In positive half cycle charging occurs and in negative half cycle discharging will occur. So net power for an ideal capacitor over a full cycle is zero.
Some Important notes about Capacitor
A capacitor is a circuit component made of two conducting surfaces (plates) separated by a dielectric (non-conducting insulator) material.
Capacitor shapes are either flat or rolled (cylinder).
The Leyden jar was the first capacitor created, invented in 1745 by Pieter van Musschenbroek.
A capacitor’s conducting surfaces are made of different materials, including a thin film of conductive metal or aluminum.
The negatively charged plate is known as the cathode and the positively charged plate is known as the anode.
Capacitors with higher capacitance values are made from materials with a higher dielectric constant.
Dielectric materials used in capacitors include ceramic, air, vacuum, paper impregnated with oil or wax, mylar, polystyrene, mica, and glass.
When a capacitor is connected to a power source, positive charges transfer to one of the conducting surfaces, and negative charges are transferred to the other conducting surface.
A capacitor can absorb energy from a circuit and store it temporarily. The capacitor can then later return the energy to the circuit.
Capacitors discharge very slowly, but many can store a charge for years.
Handling a charged capacitor in the wrong way can result in burns or even death, especially if the capacitor is large.
A capacitor is discharged slowly when a resistor is connected to each leg. The resistor must be rated for the same or higher voltage than the capacitor can store for this method of discharge in order to work safely.
Capacitors are measured in a unit called farads, named after the scientist Michael Faraday. This measure is also known as capacitance.
Supercapacitors made with graphene as the conducting plate are capable of storing a charge similar to lithium-ion batteries.