An ideal parallel-plate capacitor consists of a set of two parallel plates of area a separated by a very small distance

d. when this capacitor is connected to a battery that maintains a constant potential difference between the plates, the energy stored in the capacitor is u0. if the separation between the plates is doubled, how much energy is stored in the capacitor?

Question

Physics

Nick

26 January, 01:03

An ideal parallel-plate capacitor consists of a set of two parallel plates of area a separated by a very small distance

d. when this capacitor is connected to a battery that maintains a constant potential difference between the plates, the energy stored in the capacitor is u0. if the separation between the plates is doubled, how much energy is stored in the capacitor?

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Darryl Gates · Answer 1

A capacitor is composed of two oppositely charged parallel plates that produce a magnetic field. That is why when it is placed in a circuit with an induced voltage, it can produce and store electricity. The equation relating this energy (E), the voltage (V) and the distance (d) between the plates of the capacitor is:

V = Ed

So if the voltage or potential difference is constant, then Ed=k. That means that any product of values of E and d would always be the same such that

E₁d₁ = E₂d₂

When d₂ is twice d₁, then d₂ = 2d₁:

E₁d₁ = E₂ (2d₁)

E₂ = E₁/2

That means that the energy stored in the capacitor would decrease by a half.