Hydrogen -> Helium
Nuclear fission. It realeases nuclear energy by spitting big atomic nuclei, usually those of uranium. Neutrons are fired at the nuclei. As the neutrons smash into the nuclei they split off more neutrons, which bombard other nuclei, setting of a chain reaction, which makes energy.
DNA is decoded into messenger RNA (mRNA) during a process called transcription, which takes place in the cell nucleus. The mRNA then serves as a template for protein synthesis in a process called translation, occurring in the ribosomes. During translation, the sequence of nucleotides in the mRNA is translated into a specific sequence of amino acids, forming a protein. Thus, DNA is ultimately decoded into functional proteins that perform various roles in the cell.
The process when protons and neutrons react during nuclear fusion is called nucleosynthesis. This is the process by which new atomic nuclei are formed from existing protons and neutrons.
An atom can increase in neutrons through a process called neutron capture, where it absorbs a neutron from its environment, often occurring in nuclear reactions or during radioactive decay. In certain nuclear reactions, such as those in stars or during supernova events, atoms can also gain neutrons as a byproduct of fusion or fission processes. Additionally, artificial methods, like those used in nuclear reactors, can facilitate the addition of neutrons to specific isotopes.
Helium-3 is not produced; it is a naturally occurring isotope formed through the decay of tritium. It can also be extracted during the operation of nuclear reactors and obtained through the decay of tritium in nuclear weapons.
The process is nuclear fusion of hydrogen. All stars at their main sequence converts hydrogen to helium giving large energy by during hydrogen atoms into helium nucliiFusion of hydrogen.
The process is nuclear fusion of hydrogen. All stars at their main sequence converts hydrogen to helium giving large energy by during hydrogen atoms into helium nucliiFusion of hydrogen.
Nuclear fission. It realeases nuclear energy by spitting big atomic nuclei, usually those of uranium. Neutrons are fired at the nuclei. As the neutrons smash into the nuclei they split off more neutrons, which bombard other nuclei, setting of a chain reaction, which makes energy.
DNA is decoded into messenger RNA (mRNA) during a process called transcription, which takes place in the cell nucleus. The mRNA then serves as a template for protein synthesis in a process called translation, occurring in the ribosomes. During translation, the sequence of nucleotides in the mRNA is translated into a specific sequence of amino acids, forming a protein. Thus, DNA is ultimately decoded into functional proteins that perform various roles in the cell.
The process when protons and neutrons react during nuclear fusion is called nucleosynthesis. This is the process by which new atomic nuclei are formed from existing protons and neutrons.
Transcription.
No, nuclear power stations do not produce carbon dioxide (CO2) during the electricity generation process. Nuclear power generates electricity by splitting atoms in a process called nuclear fission, which does not involve the combustion of fossil fuels that produce CO2 emissions.
During nuclear division and the process of metabolic activities ,some waste materials are formed in the nucleus. it is called nuclear waste.
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Stars primarily burn hydrogen gas through the process of nuclear fusion, where hydrogen atoms combine to form helium. This fusion process releases a tremendous amount of energy, which is what powers the star and allows it to emit light and heat.
hydrogen fusion
Nuclear fusion