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=== Conservation of energy and mass in transformation === Energy gives rise to weight when it is trapped in a system with zero momentum, where it can be weighed. It is also equivalent to mass, and this mass is always associated with it. Mass is also equivalent to a certain amount of energy, and likewise always appears associated with it, as described in [[mass–energy equivalence]]. The formula ''E'' = ''mc''<sup>2</sup>, derived by [[Albert Einstein]] (1905) quantifies the relationship between [[relativistic mass]] and energy within the concept of special relativity. In different theoretical frameworks, similar formulas were derived by [[J.J. Thomson]] (1881), [[Henri Poincaré]] (1900), [[Friedrich Hasenöhrl]] (1904) and others (see [[Mass–energy equivalence#History]] for further information). Part of the rest energy (equivalent to rest mass) of [[matter]] may be converted to other forms of energy (still exhibiting mass), but neither energy nor mass can be destroyed; rather, both remain constant during any process. However, since <math>c^2</math> is extremely large relative to ordinary human scales, the conversion of an everyday amount of rest mass (for example, 1 kg) from rest energy to other forms of energy (such as kinetic energy, thermal energy, or the radiant energy carried by light and other radiation) can liberate tremendous amounts of energy (~ {{val|9|e=16|u=joules}}, equivalent to 21 megatons of TNT), as can be seen in [[nuclear reactor]]s and nuclear weapons. Conversely, the mass equivalent of an everyday amount energy is minuscule, which is why a loss of energy (loss of mass) from most systems is difficult to measure on a weighing scale, unless the energy loss is very large. Examples of large transformations between rest energy (of matter) and other forms of energy (e.g., kinetic energy into particles with rest mass) are found in [[nuclear physics]] and [[particle physics]]. Often, however, the complete conversion of matter (such as atoms) to non-matter (such as photons) is forbidden by [[conservation law]]s.
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