Isotopes of krypton are: Kr-78, Kr-80 to Kr-84, Kr-86. Kr-83 was used in magnetic resonance imaging.
There are 33
Krypton (isotopes 83 to 86) and barium (isotopes 138 and 139) are fission products of uranium, resulting from the nuclear fission of uranium atom nucleus.
The nucleus of any atom is in the center; the nucleus of krypton has 36 protons and a variable number of neutrons, depending on the isotopes.
Natural isotopes of krypton are: Kr-78, Kr-80, Kr-81, Kr-82, Kr-83, Kr-84, Kr-86.
Yes Neon has isotopes from 16-34.
Natural isotopes of krypton are: Kr-78, Kr-80 to Kr-84, Kr-86.
There are 33
Krypton (isotopes 83 to 86) and barium (isotopes 138 and 139) are fission products of uranium, resulting from the nuclear fission of uranium atom nucleus.
Natural isotopes of krypton are: Kr-78, Kr-80, Kr-81, Kr-82, Kr-83, Kr-84, Kr-86.
The nucleus of any atom is in the center; the nucleus of krypton has 36 protons and a variable number of neutrons, depending on the isotopes.
Natural isotopes of krypton are: Kr-78, Kr-80, Kr-81, Kr-82, Kr-83, Kr-84, Kr-86.
The fission of uranium-235 release krypton and barium (and other isotopes) as fission products.I don't know if the fusion of uranium and krypton is possible in laboratory.
This chemical element is krypton.
The radioactive decay of americium 241 is by alpha disintegration; the disintegration of radioactive krypton isotopes is by beta particles emission.
Krypton's main uses are for low pressure filling gas for fluoresent lights.
Krypton is used to fill electric lamp bulbs which are filled with a mixture of krypton and argon, and for various electronic devices. Krypton is also used in photographic projection lamps, in very high-powered electric arc lights used at airports and in some strobo-lamps, because it has an extremely fast respons to an electric current.
There are no 'common' compounds of krypton.