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Aluminum-28 decays into stable silicon-28. Al-28's decay can be thought of in this way: One of the neutrons of Al-28 nucleus decays into an electron and a proton (the sum being electrically neutral). The high-speed electron is the beta particle that is net-released from the atom but the proton stays behind in the nucleus. But now, the number of protons in the nucleus has increased from 13 (in Al-28) to 14 (Si-28). So from this beta decay, an atom of unstable Al-28 lets fly a beta particle (high speed electron) but moves up one in the Periodic Table (to Si-28).

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13y ago
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5mo ago

The beta decay of Aluminum-24 involves the transformation of a neutron into a proton, an electron (beta particle), and an antineutrino. This results in the formation of Magnesium-24.

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14y ago

13Al24 -------> 14Si24 + e-

This is, however, hypothetical neither Al-24 and Si-24 exist as isotopes of those elements.

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13y ago

Aluminum-28 decays by beta- decay to Silicon-28 with a half-life of 2.414 minutes.

1328Al --> 1428Si + (W- --> e- + v-e)

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Q: What is the beta decay of Aluminum-24?
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Why energy of beta particles is different in beta particle decay?

The energy of beta particles in beta decay is not fixed because it depends on the specific isotope and decay process involved. Beta decay can produce high-energy electrons and positrons through beta minus and beta plus decay, respectively. The energy of the beta particles is determined by the energy released during the decay process.


Alpha and beta decay emit what?

Alpha decay emits an alpha particle, which consists of two protons and two neutrons. Beta decay emits either an electron (beta minus decay) or a positron (beta plus decay).


Are beta emission and beta decay the same?

There is a difference between beta emitters and beta particles. In situations where an atomic nucleus exhibits nuclear instability due to too many neutrons for the number of protons or vice versa, that nucleus may undergo beta decay. It the decay event occurs, that atom is considered a beta emitter. The emitted particle is the beta particle. That's the difference. (There are two different beta particles, so check the articles on beta decay to get the scoop.)


What is the beta decay of radium 226?

Radium-226 does not decay by beta decay. It decays by alpha decay to radon-222.


What type of particles are released as part of beta decay?

Beta decay involves the release of electrons (beta particles) or positrons, along with neutrinos. Beta decay occurs when a neutron changes into a proton within an atomic nucleus, which leads to the emission of a beta particle.

Related questions

What are three types of beta decay?

The three types of beta decay are beta-minus decay (emission of an electron), beta-plus decay (emission of a positron), and electron capture (where a proton captures an electron and converts into a neutron).


Why energy of beta particles is different in beta particle decay?

The energy of beta particles in beta decay is not fixed because it depends on the specific isotope and decay process involved. Beta decay can produce high-energy electrons and positrons through beta minus and beta plus decay, respectively. The energy of the beta particles is determined by the energy released during the decay process.


Alpha and beta decay emit what?

Alpha decay emits an alpha particle, which consists of two protons and two neutrons. Beta decay emits either an electron (beta minus decay) or a positron (beta plus decay).


Disintegration of a nucleus with the emission of an electron is known as what type of decay?

beta


How do you figure out beta decay of molecule?

Beta decay is a property of atoms not molecules.


What radiation is emitted during beta decay?

During beta decay, a beta particle (an electron or positron) is emitted, along with an antineutrino or neutrino, depending on whether it's beta-minus or beta-plus decay, respectively. Beta decay involves the transmutation of a neutron into a proton within the nucleus, releasing the beta particle in the process.


Are beta emission and beta decay the same?

There is a difference between beta emitters and beta particles. In situations where an atomic nucleus exhibits nuclear instability due to too many neutrons for the number of protons or vice versa, that nucleus may undergo beta decay. It the decay event occurs, that atom is considered a beta emitter. The emitted particle is the beta particle. That's the difference. (There are two different beta particles, so check the articles on beta decay to get the scoop.)


Order gamma decay beta decay and alpha deacy form weakest to strongest?

From weakest to strongest decay, the order is: Gamma decay - involves the emission of high-energy photons. Beta decay - involves the emission of beta particles (electrons or positrons). Alpha decay - involves the emission of alpha particles (helium nuclei).


What is emitted during beta decay?

During beta decay, a beta particle (either an electron or a positron) is emitted from the nucleus of an atom. This emission occurs when a neutron in the nucleus is transformed into a proton, with the accompanying release of a beta particle and an antineutrino (in the case of beta-minus decay) or a neutrino (in the case of beta-plus decay).


Will electrons will be emitted in a radioactive decay?

It does not usually involve the atom's electrons, except for a type of decay called K capture. But the beta particles ejected in what is called beta decay are either electrons or positrons.


What is the beta decay of radium 226?

Radium-226 does not decay by beta decay. It decays by alpha decay to radon-222.


Does a beta particle have an identical charge to an electron?

Yes, a beta particle is either an electron or a positron. In beta decay, an electron is emitted (beta-minus decay), which has a negative charge, while a positron is emitted in beta-plus decay, which has a positive charge.