An inductor is a component in an electronic circuit that helps to decrease the amount of current that flows through it. If the inductance of an inductor is increased, the current flowing through it will also be increased. This can cause problems in the circuit, including decreased performance and possibly even damage.
To answer your question, we must understand the concept of inductance. The term inductance is used to describe a property of a magnetic field. When a changing magnetic field is applied across a closed wire coil, current begins to flow in the wire. This current is referred to as the coil’s “inductance” or “self-inductance”.
The inductance L of a coil depends upon the number of turns N, the cross-sectional area of the wire A and its length L. Thus, for a given value of L, the number of turns N may be varied by changing the length L or the cross-sectional area A. Since we are trying to increase the inductance of the inductor, it is necessary to reduce the number of turns N. Thus, the inductance L may be increased only by increasing the length L. This is called an increase in the inductance.
Increasing the length L of the coil makes the magnetic field strength greater, and thus more current is induced in the coil. As a result, the coil is able to store more energy.
If you are increasing the inductance of the inductor by increasing the length L, the capacitance C remains unchanged. Therefore, the total impedance of the circuit will remain constant.
What is an electronic circuit?
An electronic circuit consists of interrelated components, such as resistors, transistors, capacitors, inductors, and diodes, that are connected to each other using wires or traces through which electrical current can flow.
So, if the inductance of the inductor is increased, the current through the resistor will decrease. This is because the increase in inductance will cause a decrease in the rate of change of the current, which will reduce the voltage across the resistor.
