![ferrite core inductor symbol ferrite core inductor symbol](https://hardwarebee.com/wp-content/uploads/2021/12/img_61bc757eb1964.png)
It takes time to change the voltage across a capacitor, and if you try, a large current flows initially. The current in an inductor is analogous to the voltage across a capacitor. Inductors are used in circuits to smooth the flow of current and prevent any rapid changes. This induced current acts to keep the current flowing in the coil the induced current opposes any change, an increase or a decrease, in the current through the inductor. The field contracts toward the coil, and the effect of the field moving through the wire of the coil is the same as moving a wire through a stationary field: a current is generated in the coil. The field represents stored energy and that energy must go somewhere. If the current through a coil is stopped, the magnetic field must also disappear, but it cannot do so immediately.
FERRITE CORE INDUCTOR SYMBOL GENERATOR
This is how an electrical generator works. It takes energy to move the wire through the field, and that mechanical energy is transformed to electrical energy. If you move a wire through a magnetic field, current will be generated in the wire and will flow through the associated circuit. Inductors are categorized into different types based on their core material and mechanical construction. Parallel connection reduces inductance because the current is split between the several coils and the fields in each are thus weaker. This makes physical sense because two coils of wire connected in series just looks like a longer coil. We already know how inductors act in combination because they act just like resistors. When current flows through a coil ( or any wire) it produces a magnetic field in the space outside the wire, and the coil acts just like any natural, permanent magnet, attracting iron and other magnets.