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Question
Define self-inductance of a coil. Show that magnetic energy required to build up the current I in a coil of self inductance L is given by `1/2 LI^2`
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Solution
Self inductance is the inherent inductance of a circuit, given by the ratio of the electromotive force produced in the circuit by self-induction to the rate of change of current producing it. It is also called coefficient of self-induction.
Self-inductance is also called the inertia of electricity.
Suppose I = Current flowing in the coil at any time
Φ = Amount of magnetic flux linked
It is found that Φ ∝ I
`phi = LI`
Where,
L is the constant of proportionality and is called coefficient of self induction
SI unit of self-inductance is Henry.
Let at t = 0 the current in the inductor is zero. So at any instant t later, the current in the inductor is I and rate of growth of I is dI/dt.
Then, the induced emf is e = L×dI / dt
If the source is sending a constant current I through the inductor for a small time dt, then small amount of work done by the source is given by
dW = eI dt =(LdI/dt)I dt = LIdI
The total amount of work done by the source of e.m.f., till the current increases from its initial value I = 0 to its final value I is given by
`W =int_0^1LIdI = Lint_0^1IdI =L|I^2/2|_0^1 `
This work done by the source of emf is used in building up current from zero to I0 is stored in the inductor in energy form. Therefore, energy stored in the inductor is
`U = 1/2 LI^2`
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