coefficient of self induction Sentence Examples
- The coefficient of self-induction quantifies the ability of a coil to induce an electromotive force in itself.
- In electrical engineering, the coefficient of self-induction, often denoted as L, is a fundamental parameter in circuits containing inductors.
- The coefficient of self-induction depends on factors such as the number of turns in the coil and the material properties of the core.
- A coil with a higher coefficient of self-induction generates a stronger magnetic field when a current passes through it.
- Engineers calculate the coefficient of self-induction to design circuits that meet specific voltage, current, and frequency requirements.
- In solenoids and electromagnets, the coefficient of self-induction influences the strength and efficiency of the magnetic field produced.
- Understanding the coefficient of self-induction is essential for optimizing the performance of inductive components in electronic devices.
- The coefficient of self-induction plays a crucial role in the operation of motors, generators, and transformers.
- Researchers study the coefficient of self-induction to develop innovative applications in fields such as wireless power transfer and magnetic resonance imaging.
- By controlling the coefficient of self-induction, engineers can design circuits and devices with improved efficiency, reliability, and performance.
coefficient of self induction Meaning
coefficient of self induction (n)
the ratio of the electromotive force produced in a circuit by self-induction to the rate of change of current producing it, expressed in henries
Synonyms & Antonyms of coefficient of self induction
No Synonyms and anytonyms found
FAQs About the word coefficient of self induction
the ratio of the electromotive force produced in a circuit by self-induction to the rate of change of current producing it, expressed in henries
No synonyms found.
No antonyms found.
The coefficient of self-induction quantifies the ability of a coil to induce an electromotive force in itself.
In electrical engineering, the coefficient of self-induction, often denoted as L, is a fundamental parameter in circuits containing inductors.
The coefficient of self-induction depends on factors such as the number of turns in the coil and the material properties of the core.
A coil with a higher coefficient of self-induction generates a stronger magnetic field when a current passes through it.
