The molecule T218O has molar mass of 24,031 g.
A molecule
Isotopes of the same element differ in the number of neutrons. Isotopes have different physical properties but similar chemical properties.
Xenon has eight stable naturally occuring isotopes. Besides these stable forms, there are over 40 unstable isotopes that have been studied.
Germanium has 5 naturally occurring stable isotopes: 70, 72, 73, 74, 76. Dozens of other radioactive isotopes can be created.
"Molecule" is probably the word being sought, although other answers to this question, such as "element", could be defended.
The solubility of a molecule is not dependent on the isotopic composition. In other words, if a molecule with a particular isotopic composition is soluble then so are all of its isotopomers and isotopologues.
The standard water molecular weight is 18 = O16 + 2H1. Tritium (H3) exists, but the half life is 12.3 years. O18 is the heaviest of the stable istopes of oxygen. Combining it with tritium yields an atomic mass of 24. Oxygen 24 has a half life of 61 milliseconds, so you could very briefly get a water molecule with an atomic weight of 30. There may be an oxygen isotope as heavy as 26, though its half life is unknown.
boob
=Unlike stable isotopes such as Carbon- 12 or oxygen- 1, radioisotopes spontaneously change into other isotopes over time.=
A molecule
I want to know that why the do the isotopes of hydrogen have a greater ratio of mass difference than the ratios for any other isotopes of other elements. help me out!!!
Isotopes of the same element differ in the number of neutrons. Isotopes have different physical properties but similar chemical properties.
Neptunium-237 decay to protactinium-233.Other isotopes of Np decay to other daughter isotopes.
Isotopes contain a different number of neutrons.
The radon isotopes 218Rn, 219Rn, 220Rn and 222Rn are natural isotopes. The other isotopes are manmade. See also the link below.
istopes
Xenon has eight stable naturally occuring isotopes. Besides these stable forms, there are over 40 unstable isotopes that have been studied.