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Why neutron mass is greater of proton mass?
A neutron could split into a proton plus an electron during the radioactive decay..
A beta particle is formed in the nucleus of an isotope due to the?
transformation of a neutron into a proton, an electron (beta particle), and an antineutrino. This process is known as beta decay and occurs in isotopes with an excess of neutrons compared to protons, seeking to attain a more stable ratio of protons to neutrons.
Which type of radioactive decay does not change the neutron-to-proton ratio for a nucleus?
Gamma decay does not change the neutron-to-proton ratio for a nucleus. Gamma decay involves the emission of gamma rays, which are high-energy photons, without changing the composition of the nucleus.
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.
How can coin- tossing simulate radioactive decay?
Coin-tossing can simulate radioactive decay by assigning a probability of heads or tails to represent decay or stability of a radioactive nucleus. Consistent with the decay probability of a radioactive substance, you can randomly flip the coin to determine decay events over time. Over multiple throws, you can track the number of heads to emulate the decay rate of a radioactive substance.
Why is a neutron not radioactive in a nucleon?
Neutron decay occurs though the weak interaction of W bosons. While in the nucleus, the strong interaction (gluons) hold the neutron together in the atom. The neutron can still decay while in the nucleus causing beta decay.
Why neutron mass is greater of proton mass?
A neutron could split into a proton plus an electron during the radioactive decay..
A beta particle is formed in the nucleus of an isotope due to the?
transformation of a neutron into a proton, an electron (beta particle), and an antineutrino. This process is known as beta decay and occurs in isotopes with an excess of neutrons compared to protons, seeking to attain a more stable ratio of protons to neutrons.
Can Radioactive decay can involve electrons?
Yes. That's what "beta radiation" is. (occurs when a neutron becomes a proton).
What is the radioactive decay law?
The rate of decay (activity) of a radioactive isotope is proportional to the number of atoms of the isotope present.
What is radioactive decay law?
The rate of decay (activity) of a radioactive isotope is proportional to the number of atoms of the isotope present.
Which type of radioactive decay does not change the neutron-to-proton ratio for a nucleus?
Gamma decay does not change the neutron-to-proton ratio for a nucleus. Gamma decay involves the emission of gamma rays, which are high-energy photons, without changing the composition of the nucleus.
What are two types of radioactive decay?
The two types of radioactive decay are alpha and beta. Generally, in alpha decay the nucleus will lose 2 protons and 2 neutrons (it's a helium nucleus). Beta decay involves a neutron losing an electron and becoming a proton, so the atomic mass remains the same, but the atomic number increases by one since there is another proton.
Can Radioactive decay involve electrons?
Yes. That's what "beta radiation" is. (occurs when a neutron becomes a proton).
Compare and contrast two types of radioactive decay?
Alpha decay involves the emission of an alpha particle (two protons and two neutrons) from the nucleus, resulting in a decrease in atomic number by 2 and mass number by 4. In beta decay, a neutron is transformed into a proton and an electron (beta particle) is emitted from the nucleus, resulting in an increase in atomic number by 1 while the mass number remains the same.
Atomic number increases by one during what type of radioactive decay?
Beta decays does. But alpha decay lowers it by 2.
How does radioactive decay produce new elements?
In alpha decay, the nucleus loses two protons and two neutrons. The resulting element will therefore have an element number that is two less.In beta minus decay, a neutron gets converted to a proton. The resulting element will have one more proton - the element number will be one more. In beta plus decay, a proton gets converted to a neutron. The resulting element will have one less proton - the element number will be one less.
