Get to know Yukawa better with 10+ real example sentences, the meaning.
Yukawa in a sentence
Yukawa meaning
A surname from Japanese.
Synonyms of Yukawa
Using Yukawa
- The main meaning on this page is: A surname from Japanese.
- Useful related words include: hideki yukawa, nuclear physicist.
- In the example corpus, yukawa often appears in combinations such as: hideki yukawa, yukawa predicted, the yukawa.
Context around Yukawa
- Average sentence length in these examples: 25.6 words
- Position in the sentence: 3 start, 10 middle, 2 end
- Sentence types: 15 statements, 0 questions, 0 exclamations
Corpus analysis for Yukawa
- In this selection, "yukawa" usually appears in the middle of the sentence. The average example has 25.6 words, and this corpus slice is mostly made up of statements.
- Around the word, hideki, yasha, pion, predicted, scours and interaction stand out and add context to how "yukawa" is used.
- Recognizable usage signals include and hideki yukawa s theory and atomic nucleus yukawa predicted the. That gives this page its own corpus information beyond isolated example sentences.
- By corpus frequency, "yukawa" sits close to words such as aaronson, abai and abass, which helps place it inside the broader word index.
Example types with yukawa
The same corpus examples are grouped by length and sentence type, making it easier to see the contexts in which the word appears:
With Yukawa's papers, the modern model of the atom was complete. (12 words)
Later, the discovery of the pi meson showed it to have the properties of Yukawa's particle. (17 words)
Following the discovery of the pion, Yukawa was awarded the 1949 Nobel Prize in Physics for his predictions. (18 words)
Yukawa called his carrier particle the meson, from μέσος mesos, the Greek word for "intermediate," because its predicted mass was between that of the electron and that of the proton, which has about 1,836 times the mass of the electron. (41 words)
The mu meson had about the right mass to be Yukawa's carrier of the strong nuclear force, but over the course of the next decade, it became evident that it was not the right particle. (36 words)
From the range of the strong nuclear force (inferred from the radius of the atomic nucleus ), Yukawa predicted the existence of a particle having a mass of about 100 MeV. (30 words)
Example sentences (15)
Driving through the valleys outside Hofu in Yamaguchi Prefecture, Yasha Yukawa scours the surrounding rice paddies for the raw material he covets.
Because of its mass, the mu meson was initially thought to be Yukawa's particle, but it later proved to have the wrong properties.
Following the discovery of the pion, Yukawa was awarded the 1949 Nobel Prize in Physics for his predictions.
From the range of the strong nuclear force (inferred from the radius of the atomic nucleus ), Yukawa predicted the existence of a particle having a mass of about 100 MeV.
From the short range of this force, Hideki Yukawa predicted that it was associated with a massive particle, whose mass is approximately 100 MeV.
Later, the discovery of the pi meson showed it to have the properties of Yukawa's particle.
The h term describes the Higgs field F. : The y term gives the Yukawa interaction that generates the fermion masses after the Higgs acquires a vacuum expectation value.
The mu meson had about the right mass to be Yukawa's carrier of the strong nuclear force, but over the course of the next decade, it became evident that it was not the right particle.
The pions, which turned out to be examples of Yukawa's proposed mesons, were discovered later: the charged pions in 1947, and the neutral pion in 1950.
The problem of meson absorption and Hideki Yukawa 's theory of mesons as the carrier particles of the strong nuclear force were also tackled.
The theory of electron capture was first discussed by Gian-Carlo Wick in a 1934 paper, and then developed by Hideki Yukawa and others.
This particle would have no other Standard Model interactions (apart from the Yukawa interactions with the neutral component of the Higgs doublet ), so is called a sterile neutrino.
With Yukawa's papers, the modern model of the atom was complete.
Yukawa called his carrier particle the meson, from μέσος mesos, the Greek word for "intermediate," because its predicted mass was between that of the electron and that of the proton, which has about 1,836 times the mass of the electron.
Yukawa had originally named his particle the "mesotron", but he was corrected by the physicist Werner Heisenberg (whose father was a professor of Greek at the University of Munich ).
Common combinations with yukawa
These word pairs occur most frequently in English texts: