project file about self inductance for 12th class
#1

Hi I am Shashank I would like to get details on my project file about self inductance for class 12 l am living at Bhilai and I am studyingin Shakuntala vidyalaya
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#2

The property of self-induction is a particular form of electromagnetic induction. Self inductance is defined as the induction of a voltage in a wire that carries current when the current in the wire itself is changing. In the case of the inductance itself, the magnetic field created by a changing current in the circuit itself induces a voltage in the same circuit. Therefore, the voltage is self-induced.

The term inductor is used to describe a circuit element having the property of inductance and a coil of wire is a very common inductor. In circuit diagrams, a coil or wire is generally used to indicate an inductive component. Closely examining a coil will help you understand the reason a voltage is induced in a wire carrying a changing current. The alternating current that flows through the coil creates a magnetic field in and around the coil that is increasing and decreasing as the current changes. The magnetic field forms concentric loops that surround the wire and join to form larger loops surrounding the coil as shown in the image below. As the current increases in a loop, the expanding magnetic field will cut through some or all neighboring loops of the wire, inducing a voltage in these loops. This causes a voltage to be induced in the coil when the current is changing.
The inductance of the self is the ration between the induced electromotive force (EMF) through a coil at the rate of change of current through this coil. Self inductance is a term related to the phenomenon of self induction. Self induction induces self-induction. The self-induction or coefficient of Self-induction is called L. Its unit is Henry (H). First we have to know what self-induction is. Self induction is the phenomenon whereby in a coil a change in the electric current produces an induced electromagnetic force through this coil itself. This induced Electro Motive Force (ε) through this coil is proportional to the current rate of change. The higher the rate of change in the current, the greater the value of the EMF.
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