If it is being fused it must be fused with something.
If 2 atoms of hydrogen (deuterium) fuse to form one atom of helium then there is a difference of mass of (2.0141 x 2) amu - 4.002602 amu = 0.025598 amu
0.025598 amu x ( 931 Mev / amu) = 23.831738 Mev
So if you want an amount per atom of hydrogen, divide by 2.
11.92 Mev per deuterium atom
hydrogen-1 atom
The particular colors emitted by an element reflect the exact amounts of energy that electrons orbiting the hydrogen nucleus give off when they drop from higher energy positions further from the nucleus to lower energy positions closer to the nucleus. Since hydrogen is so small and has so few orbitals, it has only four colors that it emits on the Balmer Series. Elements with high atomic numbers have many more orbitals and thus many more colors.
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Each electron in an atom is in an orbital (*NOT* an orbit!!) at a specific energy level from the positive nucleus. The energy levels of these orbitals are fixed -- an electron can go from orbital 's' to orbital 'p', but it can't go halfway between these two orbitals. When an electron in an atom goes from a higher orbital to a lower one, then the atom must give off an amount of energy, that is exactly the difference in energy in the two levels. For a hydrogen atom, these orbital levels are fixed by the fact that the angular momentum of an electron in an orbital is quantized -- ie, it comes in exact multiples, but not fractions, of a minimal amount.
I would imagine Hydrogen Bond. It is hydrogen bond because hydrogen fluoride and water have a large dipole. The electronegative atom attracts electrons away from the hydrogen atom leaving the hydrogen atom almost unshielded proton with a partial positive charge.
hydrogen-1 atom
it give kinetic energy
The sun converts hydrogen into helium in the core of the sun. This neuclear reaction of four hydrogen atoms into one helium atom creates heat and light (kinetic energy) as result of the loss of mass (1 helium atom has less mass than 4 hydrogen atoms and the loss of mass is the heat and light)Plasma fusion
There is actually no certain 'part' of the atom that gives off light. As you know, light is made out of photons. Photons are given off by the atom when it releases energy to get rid of the energy. I hope this helps!
The particular colors emitted by an element reflect the exact amounts of energy that electrons orbiting the hydrogen nucleus give off when they drop from higher energy positions further from the nucleus to lower energy positions closer to the nucleus. Since hydrogen is so small and has so few orbitals, it has only four colors that it emits on the Balmer Series. Elements with high atomic numbers have many more orbitals and thus many more colors.
Depends on the energy of the photon. If the energy of the photon is less than the energy of ionization of the hydrogen - energy required to expell the electron from the nucleus force field - then the electron will just get more energetic and go to an orbital further from the nucleus. If the energy of the photon is higher than the energy of ionization of the hydrogen, then the electron will be expelled, and the hydrogen will become an ion - H+.
Each electron in an atom is in an orbital (*NOT* an orbit!!) at a specific energy level from the positive nucleus. The energy levels of these orbitals are fixed -- an electron can go from orbital 's' to orbital 'p', but it can't go halfway between these two orbitals. When an electron in an atom goes from a higher orbital to a lower one, then the atom must give off an amount of energy, that is exactly the difference in energy in the two levels. For a hydrogen atom, these orbital levels are fixed by the fact that the angular momentum of an electron in an orbital is quantized -- ie, it comes in exact multiples, but not fractions, of a minimal amount.
Each electron in an atom is in an orbital (*NOT* an orbit!!) at a specific energy level from the positive nucleus. The energy levels of these orbitals are fixed -- an electron can go from orbital 's' to orbital 'p', but it can't go halfway between these two orbitals. When an electron in an atom goes from a higher orbital to a lower one, then the atom must give off an amount of energy, that is exactly the difference in energy in the two levels. For a hydrogen atom, these orbital levels are fixed by the fact that the angular momentum of an electron in an orbital is quantized -- ie, it comes in exact multiples, but not fractions, of a minimal amount.
Hydrogen bombs give off a tremendous amount of energy in the form of heat, light, and radiation when they detonate. This energy release is the result of the nuclear fusion process that occurs in the bomb's core.
Nuclear fussion of Hydrogen to give helium, positron and energy
The sun gives off a tremendous amount of energy through nuclear fusion in its core. This process involves the merging of hydrogen atoms to form helium, releasing large amounts of energy in the form of light and heat. This energy sustains life on Earth and drives the processes within the sun.
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