isotropy Antonyms

No Synonyms and anytonyms found

Meaning of isotropy

Wordnet

isotropy (n)

(physics) the property of being isotropic; having the same value when measured in different directions

Webster

isotropy (n.)

Uniformity of physical properties in all directions in a body; absence of all kinds of polarity; specifically, equal elasticity in all directions.

isotropy Sentence Examples

  1. Isotropy is a fundamental property of space that asserts its uniformity in all directions.
  2. In an isotropic medium, physical properties such as density, elasticity, and refractive index are the same in all directions.
  3. The isotropy of the universe is a fundamental assumption in cosmology and is supported by various observations.
  4. Isotropic materials have the same properties in all directions, regardless of the direction of measurement.
  5. Isotropy is a key property in many areas of physics, including electromagnetism, optics, and acoustics.
  6. The isotropy of space is a consequence of the laws of physics, which are the same in all directions.
  7. The isotropy of the cosmic microwave background radiation is a strong piece of evidence for the Big Bang model of the universe.
  8. Isotropic materials are often used in engineering applications where uniformity is important.
  9. The isotropy of some materials can be broken by applying a magnetic field or an electric field.
  10. Isotropy is an important concept in mathematics and physics, and it has many applications in various fields.

FAQs About the word isotropy

(physics) the property of being isotropic; having the same value when measured in different directionsUniformity of physical properties in all directions in a b

No synonyms found.

No antonyms found.

Isotropy is a fundamental property of space that asserts its uniformity in all directions.

In an isotropic medium, physical properties such as density, elasticity, and refractive index are the same in all directions.

The isotropy of the universe is a fundamental assumption in cosmology and is supported by various observations.

Isotropic materials have the same properties in all directions, regardless of the direction of measurement.