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Well it depends, if you had one atom of uranium and a billion tonnes of thermite, the thermite would release more. Just as a 20 megatonne nuclear bomb would release more than a few grams of sulphur and iron binding. In general though nuclear reactions release far greater amounts of energy.
exothermic chemical reactions
The energy involved in chemical reactions is not so strong to affect the identity of atoms; only nuclear reactions can modify an atom.
This is the study of heat released/absorbed during chemical reactions.
According to Dalton's atomic theory chemical reactions occur when atoms are separated, joined, or rearranged. Atoms of one element, however, are never changed into atoms of another element as a result of a chemical reaction (it is possible only during nuclear reactions and radioactive disintegration).
Energy (in the form of heat), also free neutrons.Binding energy
Chemical bonds are made and broken by chemical reactions. After chemical bonds have been broken, then energy is released, and if a chemical bond is made, then energy is absorbed.
Gamma radiation
sun, fire ,and stove are all examples of heat energy!For example heat released during chemical reactions, nuclear fission, nuclear fusion, etc.
Energy hasn't been formed since the creation of matter. However, energy is present in atoms and can be released during chemical or nuclear reactions.
nuclear more
Well it depends, if you had one atom of uranium and a billion tonnes of thermite, the thermite would release more. Just as a 20 megatonne nuclear bomb would release more than a few grams of sulphur and iron binding. In general though nuclear reactions release far greater amounts of energy.
exothermic chemical reactions
exothermic chemical reactions
The energy involved in chemical reactions is not so strong to affect the identity of atoms; only nuclear reactions can modify an atom.
Yes they can be either absorbed or release during chemical reactions. That is why some reactions explode or give off heat and some absorb heat making them cooler.
This is the study of heat released/absorbed during chemical reactions.