释义 |
Definition of beta decay in English: beta decaynoun mass nounRadioactive decay in which an electron is emitted. 衰变,放射衰变 Example sentencesExamples - As beta decay does not change the atomic mass, the isotope of the new element number 93, neptunium, also has mass 239.
- The existence of neutrinos was first proposed by the Austrian theoretical physicist Wolfgang Pauli in 1930 in his examination of a form of radioactive decay known as beta decay.
- Experiments on radioactive beta decay, where one element spontaneously converts into another with the emission of an electron, appeared to violate the laws of conservation of energy and momentum.
- This interaction is also about 10 times weaker than the electromagnetic and is responsible for the beta decay of particles and nuclei.
- They are formed by a kind of reverse beta decay: a proton becomes a neutron.
- If one well is filled higher than the other, you tend to get a beta decay to even them out.
- There are two types of radioactive decay, alpha decay (ejection of a nucleus of helium, two protons and two neutrons tightly bound together) and beta decay (ejection of an electron).
- More detailed explanations of beta decay were developed in the late twentieth century, following theories of the existence of unique particles that transmit the weak nuclear force.
- It was at this conference that Klein suggested that a spin - 1 particle mediated beta decay and played a role in weak interactions in a similar manner to the photon in electromagnetism.
- The cascade of gammas that follows each beta decay occurs so quickly that in practice these are attributed to the iridium decay even though they are really coming from daughter products.
- In fact, stripping an atom entirely of electrons has speeded up beta decay by a factor of a billion.
- The core of the exploding star was converted to neutrons during the explosion when protons and electrons were forced together in reverse beta decay, producing the neutrinos.
- Some atoms can undergo radioactive beta decay, in which a neutron decays into a proton, an electron and an electron-antineutrino via the weak nuclear force.
- Physicists originally had a lot of trouble reconciling relativistic quantum field theory with the weak interaction that is responsible, for example, for what is called beta decay of neutron into proton, electron and neutrino.
- Whatever carbon - 14 was present at the time of the organism's death begins to decay to nitrogen - 14 by emitting radiation in a process known as beta decay.
- In 1931, he predicted the existence of the massless neutrino to explain away mathematical problems with beta decay.
- In early tests, nearly all electrons emitted during the tritium's beta decay were absorbed.
- After chains of beta decay (electron emission), the decay product is a stable neutron-rich nucleus.
- The beta decay of a cobalt 60 nucleus prefers a direction dependent on whether the interaction is left or right ‘handed’
- There are various mechanisms and forms of beta decay (e.g., negative beta decay, neutron beta decay, double beta decay, inverse beta decay, etc.).
Definition of beta decay in US English: beta decaynounbeɪdə dəˈkeɪ Radioactive decay in which an electron is emitted. 衰变,放射衰变 Example sentencesExamples - There are various mechanisms and forms of beta decay (e.g., negative beta decay, neutron beta decay, double beta decay, inverse beta decay, etc.).
- They are formed by a kind of reverse beta decay: a proton becomes a neutron.
- The core of the exploding star was converted to neutrons during the explosion when protons and electrons were forced together in reverse beta decay, producing the neutrinos.
- In fact, stripping an atom entirely of electrons has speeded up beta decay by a factor of a billion.
- This interaction is also about 10 times weaker than the electromagnetic and is responsible for the beta decay of particles and nuclei.
- Experiments on radioactive beta decay, where one element spontaneously converts into another with the emission of an electron, appeared to violate the laws of conservation of energy and momentum.
- In early tests, nearly all electrons emitted during the tritium's beta decay were absorbed.
- Some atoms can undergo radioactive beta decay, in which a neutron decays into a proton, an electron and an electron-antineutrino via the weak nuclear force.
- The existence of neutrinos was first proposed by the Austrian theoretical physicist Wolfgang Pauli in 1930 in his examination of a form of radioactive decay known as beta decay.
- As beta decay does not change the atomic mass, the isotope of the new element number 93, neptunium, also has mass 239.
- After chains of beta decay (electron emission), the decay product is a stable neutron-rich nucleus.
- There are two types of radioactive decay, alpha decay (ejection of a nucleus of helium, two protons and two neutrons tightly bound together) and beta decay (ejection of an electron).
- The beta decay of a cobalt 60 nucleus prefers a direction dependent on whether the interaction is left or right ‘handed’
- The cascade of gammas that follows each beta decay occurs so quickly that in practice these are attributed to the iridium decay even though they are really coming from daughter products.
- If one well is filled higher than the other, you tend to get a beta decay to even them out.
- It was at this conference that Klein suggested that a spin - 1 particle mediated beta decay and played a role in weak interactions in a similar manner to the photon in electromagnetism.
- Physicists originally had a lot of trouble reconciling relativistic quantum field theory with the weak interaction that is responsible, for example, for what is called beta decay of neutron into proton, electron and neutrino.
- More detailed explanations of beta decay were developed in the late twentieth century, following theories of the existence of unique particles that transmit the weak nuclear force.
- Whatever carbon - 14 was present at the time of the organism's death begins to decay to nitrogen - 14 by emitting radiation in a process known as beta decay.
- In 1931, he predicted the existence of the massless neutrino to explain away mathematical problems with beta decay.
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