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Question: A coil of self-inductance \(L\) is being connected in series with a bulb B and an AC source. Brightn...

A coil of self-inductance LL is being connected in series with a bulb B and an AC source. Brightness of the bulb will get decreased when:
A. Frequency of AC source is decreased.
B. the number of turns in a coil is reduced.
C. a capacitance of reactance XC=XL{{X}_{C}}={{X}_{L}} is included in the same circuit.
D. an iron metal is inserted in the coil.

Explanation

Solution

- Hint: First of all find out the self-inductance of a coil. And also find the current flowing through the circuit. From this, derive the relation between the increase in current and the self-inductance. These all may help us to solve this question.

Complete step-by-step solution:
First of all let us discuss the concepts of self-inductance. Inductance is given this name because of the property of a component that prevents the variation of current flowing through it. A straight piece of wire can also have some sort of inductance.
The self-inductance of a coil is given by the formula,
L=μ0μrN2AlL=\dfrac{{{\mu }_{0}}{{\mu }_{r}}{{N}^{2}}A}{l}
Where NN be the number of turns in the coil, AA is the area of the cross section and ll is the length of the coil.
The current flowing through the circuit is given as,
I=E(w2L2+R2)12I=\dfrac{E}{{{\left( {{w}^{2}}{{L}^{2}}+{{R}^{2}} \right)}^{\dfrac{1}{2}}}}
From this expression, we get to know that, as the current in the circuit is decreasing, the self-inductance of the coil increases.
And also the relation which is given as,
LμrL\propto {{\mu }_{r}}
As an iron rod is inserted in the metal, the self-inductance will increase and thus the current decreases. And finally the brightness of the bulb decreases. Therefore the correct answer is option D.

Note: Inductors are acting like this by producing a self-induced emf within itself because of their varying magnetic field. The self-inductance of a circuit is calculated in the unit of henries same as that for mutual inductance. It is basically a geometric quantity, which is dependent on the shape of the circuit and number of turns in the circuit. This is not like that of mutual inductances, which can be sometimes positive or negative.