Nuclear energy is, primarily, the controlled (or, in a bomb, the uncontrolled) release of binding energy (Strong Atomic Force) in the nucleus of an atom by the process of fission or fusion. All nuclear power plants and the Atomic bomb use fission. The Sun and the Hydrogen bomb use fusion1.
Nuclear chemistry, on the other hand, is the interrelationship between electron fields of various atoms as they interact to form various compounds, releasing and/or absorbing energy as they do so. Instead of the Strong Atomic Force, the electron field participate in the Electromagnetic Force, one of the other three primary forces. (The other two being the Weak Atomic Force, and Gravity.)
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1Technically, the Hydrogen bomb also uses fission. It requires so much energy to initiate the fusion reaction that we use an Atomic bomb to set off the Hydrogen bomb.
The difference between an A-Bomb and H-Bomb is the energy reaction inside them, one of them is nuclear fusion and the other one is nuclear fission. A-Bombs contain a unstable nuclei such as Uranium 235, whiles H-Bombs contain light stable isotopes of hydrogen and sometimes helium. Nuclear fusion is the merging of atoms/particles, whilst nuclear fission is the splitting and break down of a big unstable nuclei.
The difference in potential energy between the reactants and products.
The difference is the source of explosive energy, the temperature, and the reaction rate:atomic bomb, the explosive energy comes from the strong force nuclear binding energy, the temperature is millions of degrees, the reaction rate is on a scale of microsecondsTNT, the explosive energy comes from the electrostatic force of chemical bonds between valence band electrons, the temperature is thousands of degrees, the reaction rate is on the scale of milliseconds
Nuclear fuel is the fuel used to produce nuclear energy.
Nuclear energy is turned into thermal energy, not chemical energy
The one difference that nuclear chemistry has from the other branches is its study of the nucleus (core) of the atom. Nuclear chemistry will deal with how the nucleus can split, absorb and release energy as radiation, and decompose to form different elements.
Nuclear energy does not produce carbon dioxide.
Traditional chemistry deals mainly with the interaction of elements, compounds, and energy. Nuclear chemistry studies the nucleus of atoms, and how it can split, decompose, and interact with energy.
'Nuclear chemistry' is an odd term, what does it mean? Nuclear energy and chemical energy are not at all related, but both can have chain reactions.
Nuclear chemistry study nuclear materials and elements, isotopes, chemical processes involved in nuclear energy, some radioactivity applications, etc.
Thermal energy is the kinetic energy of the particles, while nuclear energy is the bond energy within the nucleus from strong interaction and weak interaction.
Physical energy is energy due to motion (kinetic energy) and/or energy due to position or configuration (potential energy). Nuclear energy is due to the destruction of mass.
Light is electromagnetic energy. Nuclear energy is energy derived from nuclear reactions, and the nuclear reactions could be either fusion or fission reactions. As regards the energy that appears from nuclear reactions, it can take different forms, including the form of electromagnetic energy.
Chemical energy refers to forces between atoms; nuclear energy, to forces within the nucleus of individual atoms.Chemical energy refers to forces between atoms; nuclear energy, to forces within the nucleus of individual atoms.Chemical energy refers to forces between atoms; nuclear energy, to forces within the nucleus of individual atoms.Chemical energy refers to forces between atoms; nuclear energy, to forces within the nucleus of individual atoms.
energy release aka yield
they arn't the same type of energy
Nuclear fuel has a higher energy density than fossil fuels.