The atomic number, or number of protons an element has, would be 50 for tin. It has the symbol of Sn. The atomic mass, or weighted average of the isotopes of an element, for tin would be 118.71 amu. (in atomic mass units)
There are various isotopes of tin with different atomic mass. The average atomic mass of tin is 118.71 amu. The symbol commonly used for tin is Sn.
The element with the atomic mass of 118.69 is tin, symbol Sn.
The atomic mass of tin is approximately 118.71 atomic mass units.
The molar mass of tin is 118.7amu, 118.7 grams per mole
Tin is a metal element. Atomic mass of it is 119.
The atomic mass number of tin is 118.71 u. Its symbol is Sn and its atomic number is 50. Tin is a malleable metal often used for cans.
The element with atomic number 50 is tin (Sn). The mass number of 125 indicates that this particular isotope of tin contains 75 neutrons (mass number - atomic number).
There are various isotopes of tin with different atomic mass. The average atomic mass of tin is 118.71 amu. The symbol commonly used for tin is Sn.
The element with the atomic mass of 118.69 is tin, symbol Sn.
The mass number of an atom is the sum of its protons and neutrons. Since tin has an atomic number of 50 (which corresponds to the number of protons), an atom of tin with 70 neutrons would have a mass number of 120 (50 protons + 70 neutrons).
The atomic mass of tin is approximately 118.71 atomic mass units.
If the atomic number is 50, the number of electrons is 50.
corbon atomic number is 6 and atomic mass is different 12 the other corbon atomic number is 6 and atomic mass is 13 C6=12 C6=13
The number of neutrons in an atom can be calculated by subtracting the atomic number (protons) from the mass number. In this case, the number of neutrons in a tin atom would be 119 - 50 = 69 neutrons.
The molar mass of tin is 118.7amu, 118.7 grams per mole
Tin is a metal element. Atomic mass of it is 119.
The element tin, with symbol Sn and atomic number 50, typically has 50 protons. Considering protons + neutrons = atomic mass number, if there were 50 protons and 69 neutrons, the total would be 50 + 69 = 119, which is not the atomic mass of tin (approximately 119).