corpuscular theory Sentence Examples

  1. The corpuscular theory of light suggests that light is composed of tiny, discrete particles known as corpuscles.
  2. Newton's corpuscular theory of light proposed that these corpuscles travel in straight lines and exhibit properties of both particles and waves.
  3. Corpuscular theory faced challenges when wave-like phenomena, such as interference and diffraction, were observed in light.
  4. Despite its limitations, corpuscular theory contributed significantly to the understanding of optics during the 17th and 18th centuries.
  5. Corpuscular theory was later supplanted by wave theory, which better explained various phenomena observed in light.
  6. In the 20th century, the development of quantum mechanics led to a reconciliation between corpuscular and wave theories through the concept of wave-particle duality.
  7. Corpuscular theory remains historically significant as it marked a transition from purely qualitative to more quantitative approaches to understanding light.
  8. Isaac Newton's experiments with prisms and lenses were foundational to the development of corpuscular theory.
  9. Corpuscular theory influenced the work of subsequent physicists, including Thomas Young and Augustin-Jean Fresnel, who expanded upon the wave theory of light.
  10. The corpuscular theory of light laid the groundwork for modern quantum mechanics and our understanding of the dual nature of light as both particles and waves.

corpuscular theory Meaning

Wordnet

corpuscular theory (n)

(physics) the theory that light is transmitted as a stream of particles

Synonyms & Antonyms of corpuscular theory

No Synonyms and anytonyms found

FAQs About the word corpuscular theory

(physics) the theory that light is transmitted as a stream of particles

No synonyms found.

No antonyms found.

The corpuscular theory of light suggests that light is composed of tiny, discrete particles known as corpuscles.

Newton's corpuscular theory of light proposed that these corpuscles travel in straight lines and exhibit properties of both particles and waves.

Corpuscular theory faced challenges when wave-like phenomena, such as interference and diffraction, were observed in light.

Despite its limitations, corpuscular theory contributed significantly to the understanding of optics during the 17th and 18th centuries.