betatron Antonyms
No Synonyms and anytonyms found
Meaning of betatron
betatron (n)
accelerates a continuous beam of electrons to high speeds by means of the electric field produced by changing magnetic flux
betatron Sentence Examples
- The betatron, an electron accelerator invented by Donald Kerst, relies on the principle of electromagnetic induction.
- The betatron's circular orbit guides electrons through an alternating magnetic field, imparting energy to them.
- Early betatrons were used in medical research and cancer treatment, generating high-energy X-rays.
- The betatron principle was instrumental in the development of synchrotrons, which accelerate particles to even higher energies.
- Betatrons typically operate at frequencies ranging from 50 to 60 Hz to maximize energy transfer.
- The size and power output of betatrons vary depending on the intended application, with larger machines producing more energetic beams.
- Despite advancements in accelerator technology, betatrons remain in use for certain applications, such as generating X-rays for industrial radiography.
- The development of the betatron marked a significant milestone in the field of particle physics, enabling groundbreaking experiments on the nature of matter.
- Modern betatrons incorporate sophisticated cooling systems to dissipate the heat generated by high-powered operation.
- The betatron's unique combination of simplicity and efficiency has ensured its enduring relevance in various scientific and industrial domains.
FAQs About the word betatron
accelerates a continuous beam of electrons to high speeds by means of the electric field produced by changing magnetic flux
No synonyms found.
No antonyms found.
The betatron, an electron accelerator invented by Donald Kerst, relies on the principle of electromagnetic induction.
The betatron's circular orbit guides electrons through an alternating magnetic field, imparting energy to them.
Early betatrons were used in medical research and cancer treatment, generating high-energy X-rays.
The betatron principle was instrumental in the development of synchrotrons, which accelerate particles to even higher energies.