self-inductance

However, this is only true for big loops with a large self-inductance.

This is due to the fact that the self-inductance of the loop cannot be neglected.

In electrical terms, this means that the self-inductance of the coil is zero.

The conventional terms of self-inductance and Rogowski effect are found in both the original frequencies.

This was interpreted as some form of self-inductance of the electromagnetic field.

The screening current is the applied flux divided by the self-inductance of the ring.

While building electromagnets, Henry discovered the electromagnetic phenomenon of self-inductance.

We shall now define self-inductance by the relationship.

The voltage induced in each turn of the solenoid is hence the self-inductance comes to.

In this paper, we ascribe to the magnetosphere–ionosphere system the bulk properties of self-inductance, capacitance, and resistance.

Finally, electrodynamics covers Faraday's law of induction with applications in mutual and self-inductance.

Maximum current automatically flattens out at a safe value, due to self-inductance of the heavy duty windings.

The self-inductance is reduced by slimmer designs with narrower width of the electrodes.

Since all wires have some self-inductance and resistance, all circuits have a time constant.

Connections to the earth electrodes must not only have low resistance, but must have low self-inductance.

L is the stator self-inductance matrix.

Where the conductors are thin wires, self-inductance still depends on the wire radius and the distribution of the current in the wire.

Assume that ring 1 carries a and the resistance and self-inductance of ring 2 are given as L2 and R2.

The most important criteria for this application are a low self-inductance, low ESR, and very high peak current capability.

L, the equivalent series inductance which is the effective self-inductance of the capacitor, usually abbreviated as "ESL".

The distributed inductance (due to the magnetic field around the wires, self-inductance, etc.) is represented by a series inductor (henries per unit length).

It provides a resistor that has no residual self-inductance, meaning that it can resist the flow of electricity without causing magnetic interference at the same time.

We demonstrate the equivalence for the self-inductance of closed circuits, with the formulas of Neumann, Weber, Maxwell, and Graneau.

The standardized value of Z is 450 Ω, it is equal to , where l and c are the line self-inductance and capacitance per unit length.

The diagonal coefficients L are called coefficients of self-inductance, the off-diagonal elements are called coefficients of mutual inductance.