quantum chromodynamics (Meaning)
quantum chromodynamics (n)
a theory of strong interactions between elementary particles (including the interaction that binds protons and neutrons in the nucleus); it assumes that strongly interacting particles (hadrons) are made of quarks and that gluons bind the quarks together
Synonyms & Antonyms of quantum chromodynamics
No Synonyms and anytonyms found
quantum chromodynamics Sentence Examples
- Quantum chromodynamics (QCD) is the theory describing the strong nuclear force between quarks and gluons.
- Understanding quantum chromodynamics is essential for comprehending the behavior of subatomic particles within atomic nuclei.
- In quantum chromodynamics, quarks are bound together by exchanging gluons, which carry the force between them.
- Quantum chromodynamics predicts the existence of exotic particles such as gluon-gluon bound states known as glueballs.
- Research in quantum chromodynamics has provided insights into the structure of protons, neutrons, and other hadrons.
- Lattice QCD is a numerical method used to study quantum chromodynamics on a discrete grid of points in space and time.
- Quantum chromodynamics exhibits an intriguing property known as asymptotic freedom, where the strong force weakens at high energies.
- Quantum chromodynamics calculations require sophisticated mathematical techniques due to the complex nature of the interactions involved.
- The study of quantum chromodynamics has led to the development of computational tools for simulating particle interactions in high-energy physics experiments.
- Quantum chromodynamics plays a crucial role in the Standard Model of particle physics, providing a framework for understanding the behavior of quarks and gluons.
FAQs About the word quantum chromodynamics
a theory of strong interactions between elementary particles (including the interaction that binds protons and neutrons in the nucleus); it assumes that strongl
No synonyms found.
No antonyms found.
Quantum chromodynamics (QCD) is the theory describing the strong nuclear force between quarks and gluons.
Understanding quantum chromodynamics is essential for comprehending the behavior of subatomic particles within atomic nuclei.
In quantum chromodynamics, quarks are bound together by exchanging gluons, which carry the force between them.
Quantum chromodynamics predicts the existence of exotic particles such as gluon-gluon bound states known as glueballs.