Question:
The length of a wire required to manufacture a solenoid of length l and self-induction L is (cross-sectional area is negligible)
The length of a wire required to manufacture a solenoid of length l and self-induction L is (cross-sectional area is negligible)
Updated On: Jul 7, 2022
- $\sqrt{\frac{2\pi Ll}{\mu_0}}$
- $\sqrt{\frac{\mu_0 Ll}{4\pi}}$
- $\sqrt{\frac{4\pi Ll}{\mu_0}}$
- $\sqrt{\frac{\mu_0 Ll}{2\pi}}$
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The Correct Option is C
Solution and Explanation
$L = \frac{\mu_0 N^2 A}{l}$
If $x$ is the length of the solenoid with $r$ as radius, then $x = 2\pi rN , A = \pi r^2$
$\therefore$ $L = \mu_0 \left( \frac{x^2}{4 \pi^2 r^2} \right) \frac{\pi r^2}{l} \left[ \therefore \, N = \frac{x}{2 \pi r} \right]$
$\therefore$ $x = \sqrt{\frac{4 \pi L l}{\mu_0}}$
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Concepts Used:
Inductance
Inductance is a key parameter in electrical and electronic circuit designs. Like resistance and capacitance, it is a basic electrical measurement that affects all circuits to some degree.
Inductance is used in many areas of electrical and electronic systems and circuits. The electronic components can be in a variety of forms and may be called by a variety of names: coils, inductors, chokes, transformers, . . . Each of these may also have a variety of different variants: with and without cores and the core materials may be of different types.
There are two ways in which inductance is used:
- Self-inductance: Self-inductance is the property of a circuit, often a coil, whereby a change in current causes a change in voltage in that circuit due to the magnetic effect of caused by the current flow. It can be seen that self-inductance applies to a single circuit - in other words it is an inductance, typically within a single coil. This effect is used in single coils or chokes.
- Mutual-inductance: Mutual inductance is an inductive effect where a change in current in one circuit causes a change in voltage across a second circuit as a result of a magnetic field that links both circuits. This effect is used in transformers.