Considering the case of charging of a capacitor, show that id = 𝑑⁢𝜙𝐸/𝑑⁢𝑡. What is the value of id for a conductor across which a constant voltage is applied? - Physics

प्रश्न

Considering the case of charging of a capacitor, show that i_d = `(d phi_E)/dt`. What is the value of i_d for a conductor across which a constant voltage is applied?

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उत्तर

Displacement current is defined as:

i_d = `(d phi_E)/dt`

Where:

ε₀ = permittivity of free space

Φ_E = electric flux

When a capacitor is charging, conduction current flows in wires; no real charge flows across the dielectric gap, but the electric field between the plates changes with time.

Electric flux between plates (Φ_E) = EA

As the voltage increases, the electric field (Φ_E) changes with time

E = `V/d`

Thus,

i_d = `epsilon_0 (d phi_E)/dt`

This ensures continuity:

i_c = i_d

For a conductor with a constant applied voltage, the electric field is constant, and the electric flux does not change with time.

So:

`(d phi_E)/dt` = 0

Hence, i_d = 0

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Q 25. (ii)Q 25. (i)Q 26. (a) (i)

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Q 25. (ii) | 2 marks

Considering the case of charging of a capacitor, show that id = 𝑑⁢𝜙𝐸/𝑑⁢𝑡. What is the value of id for a conductor across which a constant voltage is applied? - Physics

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Considering the case of charging of a capacitor, show that id = 𝑑⁢𝜙𝐸/𝑑⁢𝑡. What is the value of id for a conductor across which a constant voltage is applied? - Physics

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