The number next to the isotope is the mass number- They all have different masses because they have different numbers of neutrons, but the same amount of protons (Remember protons + nuetrons = mass)
The number next to any isotope represents the mass number
In the context of the isotope of sulfur, the number 35 signifies the atomic mass of that particular isotope. Specifically, sulfur-35 (written as (^{35}\text{S})) has 16 protons and 19 neutrons, resulting in a total atomic mass of 35. This number helps differentiate it from other isotopes of sulfur, such as sulfur-32 and sulfur-34, which have different numbers of neutrons.
The number next to the isotope is the mass number- They all have different masses because they have different numbers of neutrons, but the same amount of protons (Remember protons + nuetrons = mass)
Subtract the atomic number of the isotope from its atomic mass number to obtain the number of neutrons in an isotope.
Atomic Mass (of an isotope) - number of protons (of an isotope) = number of neutrons (of an isotope)
It is called an isotope.
The atomic number (not isotope number) of fermium is 100.
For each isotope of Md the number of neutrons is different.Number of neutrons = Mass number of a Md isotope -101
The atomic number of an isotope is always identical to every other isotope, otherwise, it would form a separate element.
Each isotope of beryllium has a different number of neutrons.
An isotope is an element with the same number of electrons and protons different number of neutrons.
For each isotope the number of neutrons is different.Number of neutrons = Mass number of an isotope - 98