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Alpha decay is the loss of 2 protons and 2 neutrons Beta-decay is the loss of a positron or electron Gamma decay is the loss of a photon The equation relates this loss to energy produced E=mc^2
Another isotope is produced.
One advantage of nuclear energy is that it can produce far more power than other sources of energy including wind energy. One disadvantage of nuclear energy is the radioactive waste that is produced.
The relation between temperature and energy is given by the Boltzmann equation. Boltzmann found a consatn( called the boltzmann constant) that relates the two. That is Energy=k*T
Carbon dioxide, water and energy are produced by aerobic respiration. The word equation for aerobic respiration is: Glucose + oxygen --> carbon dioxide + water + energy Energy and lactic acid are produced by anerobic respiration The word equation for anaerobic respiration is: Glucose --> energy + lactic acid
Alpha decay is the loss of 2 protons and 2 neutrons Beta-decay is the loss of a positron or electron Gamma decay is the loss of a photon The equation relates this loss to energy produced E=mc^2
E=mc^2 (apex)
e=mc^2
nuclear energy
Energy E=hf=hc/w where w is the wavelength.
Radioactive waves
In the equation E=he, h represents Planck's constant, which is a fundamental physical constant that relates the energy of a photon to its frequency.
Energy, various sub-atomic particles, a different element.
E=mc2 E=Energy m=mass c=the speed of light in a vacuum The equation relates mass to energy. Einstein made it.
Energy balance can be described by this equation : Energy intake = internal heat produced + external work + energy stored.
Another isotope is produced.
It loses mass.