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What type of decay involve neutron emission?
Neutron emission occurs in a type of radioactive decay called beta decay. In beta decay, a neutron within an unstable nucleus transforms into a proton, an electron (beta particle), and an antineutrino. The emission of the electron and antineutrino carries away the energy released from the decay process.
A beta particle is a what created and emitted from an unstable nucleus?
A beta particle is an electron or a positron emitted from an unstable nucleus during beta decay. Beta decay occurs when a neutron in the nucleus changes into a proton and emits either an electron (beta minus decay) or a positron (beta plus decay) to achieve a more stable configuration.
Was the neutron stable?
Neutrons are not completely stable because they can undergo beta decay, where a neutron decays into a proton, electron, and antineutrino. The decay of a neutron has a half-life of around 15 minutes when it is outside a nucleus.
How does an electron differ from a neutron?
An electron has a negative charge to it, whilst a neutron has a neutral charge to it.
Does a neutron have electrons in it?
Adding an electron to a proton makes a neutron. The neutron is unstable outside of a nucleus and will usually decay to a proton and an electron. But the neutron is viewed as a particle in its own right, not a combination. At a deeper level, it is a change to the quarks that compose protons or neutrons, though not electrons. And that's probably not the whole story. Quarks have one-third or two-thirds of the electron's charge, and it is very precise. This would suggest something more basic, but no one yet has an accepted theory for what.
Does the ion enable a neutron to change into a proton and an electron in certain unstable atoms?
no
What type of decay involve neutron emission?
Neutron emission occurs in a type of radioactive decay called beta decay. In beta decay, a neutron within an unstable nucleus transforms into a proton, an electron (beta particle), and an antineutrino. The emission of the electron and antineutrino carries away the energy released from the decay process.
If P-32 undergoes Beta decay This means that P-32 atoms becomes what?
sulfur - the extra neutron decays into a proton, electron and an electron-type antineutrino. Thus the unstable 15 proton, 17 neutron complement of P32 becomes the stable 16 proton, 16 neutron complement of sulfur. The emitted electron is the beta particle.
A beta particle is a what created and emitted from an unstable nucleus?
A beta particle is an electron or a positron emitted from an unstable nucleus during beta decay. Beta decay occurs when a neutron in the nucleus changes into a proton and emits either an electron (beta minus decay) or a positron (beta plus decay) to achieve a more stable configuration.
Was the neutron stable?
Neutrons are not completely stable because they can undergo beta decay, where a neutron decays into a proton, electron, and antineutrino. The decay of a neutron has a half-life of around 15 minutes when it is outside a nucleus.
What is electron capture?
Simply put, electron capture is a nuclear change that an atom might undergo when there are "too many" protons in its nucleus. This atom is unstable, and an electron from an inner orbit will actually be "pulled into" the nucleus. Once there, the electron will "combine" with a proton, and the proton will be transformed into a neutron. This will result in the formation of a new element as a result of the nuclear transformation.
When a neutron decays what does it form?
Outside the nucleus, free neutrons are unstable and have a mean lifetime of 885.7±0.8 s (about 15 minutes), decaying by emission of a negative electron and antineutrino to become a proton: : n0 → p+ + e− + νe
Do a neutron and an electron have approximately the same mass?
No, a neutron is about 1836 times the mass of an electron
How does an electron differ from a neutron?
An electron has a negative charge to it, whilst a neutron has a neutral charge to it.
Does a neutron have electrons in it?
Adding an electron to a proton makes a neutron. The neutron is unstable outside of a nucleus and will usually decay to a proton and an electron. But the neutron is viewed as a particle in its own right, not a combination. At a deeper level, it is a change to the quarks that compose protons or neutrons, though not electrons. And that's probably not the whole story. Quarks have one-third or two-thirds of the electron's charge, and it is very precise. This would suggest something more basic, but no one yet has an accepted theory for what.
What do an electron and a neutron have in common?
Both an electron and a neutron are subatomic particles found in an atom. They both have a negative charge, but a neutron has no charge.
Is the charge of a electron always equal to the charge on a neutron?
The charge on an electron is never equal to the charge on a neutron. An electron carries one negative charge and a neutron has no net charge.
