There is no limit as to how many isotopes an element can have. It can be given as many neutrons as possible with today's technology. As for stability and natural decay, that's another issue. Some isotopes can last for milliseconds, or less.
Mass spectrometer. (and centrifuges)
they are alike because they all have mass ther diffrent because there lines, and isotpes
there are 3 elements. internal element, external element and situational element
The name of the element that has atomic number 3 is Lithium (Li).
No element in period 3 has an atomic mass of 12.
The atomic weight or atomic mass.
atomic numbers
they are little particle that eat for breakfast
Mass spectrometer. (and centrifuges)
All the isotpes of hassium have 108 protons.
the protons stay the same but the number of neutrons change. e.g hydrogen has two isotope deutrium has one neutron and tritium has 2 neutrons however the original hydrogen has no neutron. i hope this helped you.
they are alike because they all have mass ther diffrent because there lines, and isotpes
Lithium.
Isotopes of an element are the same in that they are both forms of the same element. All carbon isotopes, for example, are forms of the carbon atom. Each isotope will possess the same number of protons and electrons (equivalent to the element's atomic number). However, isotopes of an element possess different numbers of neutrons, altering their atomic mass. As such, if you know the atomic mass (or weight) of a given isotope, you already know the number of protons and electrons. Using the measured mass of the proton (around 1.007 amu) and the measured mass of the electron (around 0.00055 amu), you can determine the remaining mass from the neutrons and, consequently, the number of neutrons.
The third period element that forms a 3- ion is sulfur.
they are alike because they all have mass ther diffrent because there lines, and isotpes
they are alike because they all have mass ther diffrent because there lines, and isotpes