231Pa---------alpha particle----------227Ac
Nuclear decay rates vary, but chemical reaction rates are constant
Nuclear decay involves the contents of the atomic nucleus, the protons and neutrons. Chemical reactions involve the electrons.
it is type of nuclear reaction because nucleus is involve in this type of reaction while in ordinary chemical reaction only valance electron of atoms involve
All nuclear decay is spontaneous.
For the most common isotope of neptunium, Np-237, the decay daughter is protactinium-233.Each isotope has another type of decay.
Protactinium is not typically mined directly because it is a rare element found as a trace product of the decay of uranium and thorium. It is usually produced as a byproduct of nuclear reactions or through the decay of uranium ore.
Thorium-234 does not decay into Protactinium-234. Instead, Thorium-234 naturally decays by alpha emission to Protactinium-230. The difference in decay modes is due to variances in their nuclear structures and energetics.
In beta decay of thorium-234, a neutron in the nucleus of thorium-234 is transformed into a proton, releasing an electron (beta particle) and an antineutrino. This process converts the thorium-234 nucleus into protactinium-234.
The nuclear reaction is: 232Th--------------- 228Ra + α
yes
Nuclear energy is either:fission reaction, orfusion reaction, orradioactive decay
nuclear decay rates take more time and chemical reaction rates could happen fast.
No. It is a nuclear reaction - radioactive disintegration.
Radioactive reaction is a red-ox reaction. This is a nuclear decay.
Protactinium is a natural chemical element; but protactinium can be obtained artificially by nuclear reactions from 232Th.
Protactinium is a natural chemical element; but protactinium can be obtained artificially by nuclear reactions from 232Th.
The process of decay with carbon 13 can be described by a nuclear reaction.