electrical conduction Synonyms

No Synonyms and anytonyms found

electrical conduction Meaning

Wordnet

electrical conduction (n)

the passage of electricity through a conductor

electrical conduction Sentence Examples

  1. The electrical conduction in a metallic wire is primarily due to the flow of free electrons.
  2. The electrical conduction in a semiconductor material depends on the presence of charge carriers such as electrons and holes.
  3. Electrical conduction in a semiconductor can be controlled by applying an electric field, leading to the phenomenon of field-effect transistors (FETs).
  4. Superconductors exhibit perfect electrical conduction at very low temperatures, allowing for the flow of current without any loss.
  5. Electrical conduction in electrolytes involves the movement of ions, enabling the passage of current in solutions and batteries.
  6. The study of electrical conduction in solids, liquids, and gases is essential for understanding various electrical and electronic phenomena.
  7. Electrical conduction plays a crucial role in the functioning of electronic devices, including transistors, diodes, and integrated circuits (ICs).
  8. The efficiency of electrical conduction in a material is determined by its conductivity, which measures the ease with which charge carriers can move through it.
  9. Electrical conduction in biological systems is essential for nerve impulses and muscle contractions, facilitating communication within the body.
  10. The study of electrical conduction has led to advancements in materials science, energy storage, and electronic engineering.

FAQs About the word electrical conduction

the passage of electricity through a conductor

No synonyms found.

No antonyms found.

The electrical conduction in a metallic wire is primarily due to the flow of free electrons.

The electrical conduction in a semiconductor material depends on the presence of charge carriers such as electrons and holes.

Electrical conduction in a semiconductor can be controlled by applying an electric field, leading to the phenomenon of field-effect transistors (FETs).

Superconductors exhibit perfect electrical conduction at very low temperatures, allowing for the flow of current without any loss.