### Inductor Energy Storage Calculator:

Enter the Inductance and the current flow through the inductor, then our calculator provides the energy stored in the inductor.

### Inductor Energy Storage Calculator Formula:

Inductor energy storage in the inductor E_{(j)} in joule is equal to the one divided by two and multiply the inductance of the solenoid L_{(H)} in Henry and multiply the square of the current flowing through the wire I^{2}_{(A)} in Ampere. Hence the inductor energy storage calculator formula can be written as

E_{(j)}= ½ * L_{(H)} *I^{2}_{(A)}

I= √(2E / L )

L= 2E / I^{2}

Where

E= is the energy stored in the inductor in joule

I=is the current flowing through the wire in ampere

L=is the inductance of the solenoid in Henry

### Example:1

The inductance of a solenoid 16H and the current flowing through it is 20A.Find the energy stored in the inductance

### Answer:

Given that

Inductance L=16H

Current I =20A

Energy stored in the inductor is

E_{(j)}= ½ * L_{(H)} *I^{2}_{(A)}

E=0.5 *16 *20^{2}

E=3200

Therefore, the energy stored in an inductor is 3200j

### Example:2

The inductance of a solenoid 25H and the current flowing through it is 80A.Find the energy stored in the inductance

### Answer:

Given that

Inductance L = 25H

Current I = 80A

Energy stored in the inductor is

E_{(j)}= ½ * L_{(H)} *I^{2}_{(A)}

E=0.5 *25 *80^{2}

E=80000

Therefore, the energy stored in an inductor is 80000j