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In nuclear fusion, energy is released when atoms are combined or fused together to form a larger atom. This is how the sun produces energy. In nuclear fission, atoms are split apart to form smaller atoms, releasing energy. In nuclear power plants nuclear fission is used to produce electricity.
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The binding energy of an atomic nucleus is the energy equivalent to the atom's?
The binding energy of an atomic nucleus is the energy equivalent to the mass defect, which is the difference between the mass of the nucleus and the sum of the masses of its individual protons and neutrons. This energy is needed to hold the nucleus together and is released during nuclear reactions, such as fusion or fission.
In what processes are energy released?
condensation A+ : )
What is The energy released when atoms are splits apart or fuse together in atomic reactions?
Nuclear energy is the energy released when atoms are either split apart in nuclear fission or fused together in nuclear fusion reactions. This energy is harnessed in power plants to generate electricity.
Why does an atomic bomb release more energy than a conventional chemical bomb?
An atomic bomb releases more energy than a conventional chemical bomb because the atomic bomb releases binding, or Nuclear Strong Force, energy while the conventional bomb releases chemical energy, and there is far more binding energy (hundreds and thousands of times) than there is chemical energy from the same mass of material.
What form of energy that holds atomic nuclei together called?
The strong force holds atomic nuclei together.
What The energy released when atoms are split apart or fused together in atomic reactions?
Nuclear Reaction.
What is Atomic energy is also called?
nuclear energy
What type of energy is stored in an atomic nuclei?
The energy stored in an atomic nucleus is nuclear energy. This energy is released during nuclear reactions such as fission or fusion.
The binding energy of an atomic nucleus is the energy equivalent to the atom's?
The binding energy of an atomic nucleus is the energy equivalent to the mass defect, which is the difference between the mass of the nucleus and the sum of the masses of its individual protons and neutrons. This energy is needed to hold the nucleus together and is released during nuclear reactions, such as fusion or fission.
The kind of energy associated with atomic bonds is?
The kind of energy associated with atomic bonds is chemical energy. This energy is released or absorbed when atoms form or break bonds with each other during chemical reactions.
In what processes are energy released?
condensation A+ : )
What is difference between atomic energy and nuclear energy?
Atomic energy is really a misnomer for nuclear energy. It is the fissioning of the nucleus which causes energy to be released. At the atomic level we are dealing with chemical reactions, but in the early days people did talk of atomic power and atomic bombs.
What is the significance of the rest energy of hydrogen in the context of nuclear reactions?
The rest energy of hydrogen is important in nuclear reactions because it determines the amount of energy released or absorbed during the reaction. This energy is a key factor in understanding the stability and behavior of atomic nuclei.
What is energy from the tiniest particles of matter called?
Energy from the tiniest particles of matter is called atomic or nuclear energy. This type of energy is released during nuclear reactions within the nucleus of atoms.
What is a energy source produced from atomic reactions reactions such as oil?
Nuclear energy is produced from atomic reactions in nuclear power plants, which do not involve the use of oil. Oil is used to produce energy through combustion in power plants or vehicles, but it is not classified as a form of nuclear energy.
What type of energy is in nuclear reactions?
The binding energy in atomic nuclei. This energy is transmitted by the strong force.
What is the key difference between fission and fusion reactions in terms of energy release?
The key difference between fission and fusion reactions in terms of energy release is that fission reactions involve the splitting of heavy atomic nuclei, releasing energy, while fusion reactions involve the combining of light atomic nuclei, also releasing energy.
