mutual inductance Antonyms

No Synonyms and anytonyms found

Meaning of mutual inductance

Wordnet

mutual inductance (n)

a measure of the induction between two circuits; the ratio of the electromotive force in a circuit to the corresponding change of current in a neighboring circuit; usually measured in henries

mutual inductance Sentence Examples

  1. The mutual inductance between two coils determines the amount of magnetic energy stored in their combined magnetic field.
  2. The mutual inductance between a primary and secondary winding is influenced by the distance between them and the number of turns.
  3. Transformers rely on mutual inductance to transfer energy from one circuit to another.
  4. Motors and generators utilize mutual inductance to convert mechanical energy into electrical energy and vice versa.
  5. The mutual inductance between a coil and a conductive surface can lead to eddy currents in the surface.
  6. By adjusting the mutual inductance between coils, it is possible to control the amount of current flowing in a circuit.
  7. The mutual inductance between parallel wires carrying current is directly proportional to their length and inversely proportional to their separation.
  8. The mutual inductance between a solenoid and a conducting loop can be amplified by increasing the number of turns in either component.
  9. Engineers take advantage of mutual inductance in designing electrical circuits to achieve desired performance characteristics.
  10. The theory of mutual inductance plays a crucial role in understanding the behavior of electromagnetic devices and systems.

FAQs About the word mutual inductance

a measure of the induction between two circuits; the ratio of the electromotive force in a circuit to the corresponding change of current in a neighboring circu

No synonyms found.

No antonyms found.

The mutual inductance between two coils determines the amount of magnetic energy stored in their combined magnetic field.

The mutual inductance between a primary and secondary winding is influenced by the distance between them and the number of turns.

Transformers rely on mutual inductance to transfer energy from one circuit to another.

Motors and generators utilize mutual inductance to convert mechanical energy into electrical energy and vice versa.