No, energy is released rather than absorbed
A nuclear reaction does not involve the breaking or forming of chemical bonds between atoms. Instead, it involves changes in the nucleus of atoms, such as nuclear fission or fusion. Additionally, a nuclear reaction does not typically release energy through the rearrangement of electrons in an atom's outer shell like a chemical reaction does.
The nucleus of an atom is the part that takes part in nuclear reactions. It consists of protons and neutrons, which are involved in processes such as fission and fusion. The electrons surrounding the nucleus are not typically involved in nuclear reactions.
Nuclear fission is the type of nuclear reaction where one nucleus breaks into multiple smaller nuclei. This process typically releases a large amount of energy and is the basis of nuclear power plants and nuclear weapons.
The nuclear reaction that occurs when a uranium nucleus breaks up into fragments is called nuclear fission. It releases a large amount of energy in the form of heat and radiation.
Nuclear energy is the term for energy that comes from inside the nucleus of an atom. This energy can be released through processes such as nuclear fission or nuclear fusion.
A nuclear reaction does not involve the breaking or forming of chemical bonds between atoms. Instead, it involves changes in the nucleus of atoms, such as nuclear fission or fusion. Additionally, a nuclear reaction does not typically release energy through the rearrangement of electrons in an atom's outer shell like a chemical reaction does.
The nucleus of an atom is the part that takes part in nuclear reactions. It consists of protons and neutrons, which are involved in processes such as fission and fusion. The electrons surrounding the nucleus are not typically involved in nuclear reactions.
Nuclear energy involves potential energy stored in the nucleus of an atom, which is released as kinetic energy when atoms split or fuse in a nuclear reaction.
A nuclear reaction in which a heavy nucleus splits spontaneously or on impact with another particle, with the release of energy.
The energy stored in an atom's nucleus is nuclear energy. This energy is released through processes like nuclear fusion or fission, which involve manipulating the nucleus of an atom to release large amounts of energy.
Nuclear reactions release nuclear energy, which is the energy that holds the nucleus of an atom together. This energy is released in the form of heat and radiation during processes such as fission or fusion.
Nuclear fission is the type of nuclear reaction where one nucleus breaks into multiple smaller nuclei. This process typically releases a large amount of energy and is the basis of nuclear power plants and nuclear weapons.
the atom to become unstable and rip apart
In nuclear physics and nuclear chemistry, nuclear fission is a nuclear reaction in which the nucleus of an atom splits into smaller parts (lighter nuclei), often producing free neutrons and photons (in the form of gamma rays).
The nuclear reaction that occurs when a uranium nucleus breaks up into fragments is called nuclear fission. It releases a large amount of energy in the form of heat and radiation.
nuclear fission
A proton with high energy and momentum is required to initiate a nuclear reaction. When this high-energy proton collides with another nucleus, it can cause it to undergo fission or fusion, releasing a large amount of energy.