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Stability depends on to proton/neutron ratio; and this ratio increase with the atomic number.
The ratio of neutrons to protons in an atom can be calculated by subtracting the atomic number (number of protons) from the atomic mass (sum of protons and neutrons) of the atom. Mathematically, ratio of neutrons to protons = (Atomic mass - Atomic number).
The answer depends on which salt.
This is the protons/neutrons ratio in the atomic nucleus.
The simplest atomic ratio of the elements in a compound is determined by dividing the subscripts in the chemical formula by the greatest common factor. This ratio represents the smallest whole number ratio of atoms of each element in the compound.
Simplest atomic ratio of the elements present in the compounds.
The stability of a nucleus depends on the ratio of protons to neutrons. It's not a simple ratio that's the same for all atomic numbers, it varies. For small atomic numbers, 1:1 is about right. For higher atomic numbers, more neutrons are needed.
The atomic ratio in this salt is 1:1. The mass ratio is 22.999:35.457 of sodium to chlorine, the ratio of the atomic weights of sodium and chlorine.
The atomic ratio between sodium and chlorine in sodium chloride is 1:1, as indicated by its formula NaCl. If the mass ratio is wanted, it is that of the atomic weights of the two elements.
The atomic ratio between the atoms is shown by the formula itself to be 1:3 for P:Br. The gram atomic mass of phosphorus is 30.9738, and the gram atomic mass of bromine is 79.904. Therefore, the ratio of phosphorus to bromine by mass is 30.9738/(3* X 79.904) or about 0.12921 to the justified number of significant digits. ______________________ *This is an exact digit
Not generally. For light elements this relation is often approximately true, but for heavier elements, the gram atomic mass is more than two times the atomic number, as the ratio of neutrons to protons increases with increasing atomic mass.