The mass number of the element chlorine is 35.5. The mass number (nucleon number) of an isotope of an element tells us the sum of the number of neutrons and protons. It is a decimal because mass numbers of elements are averages, based on the different isotopic forms of the element and their relative abundance.
Mass Number is equal to the number of nucleones(protons+neutrons) of an atom.Cl-35 mean Cl has 35 nucleones.So the Mass Number of Cl-35 is 35.
Chlorine is a non metal element. Mass number of it is 35.
what is the mass of chlorine-35
35
Chlorine has an atomic mass of 35.5 because the atomic mass of an element is the number of protons plus the number of neutrons. In chlorine, there are always 17 protons (the number of protons in an atom is what makes it whichever element it is), but it is possible to have different amounts of neutrons in the atom. These are called different isotopes of an element. In chlorine, there can be between 17 and 20 neutrons meaning the mass number can range between 34 and 37. The reason that it is written as 35.5 on the periodic table is because that is the average mass number.
Isotopes are atoms of the same chemical element that have different masses due to differing numbers of protons in the nucleus. These are all averaged out to give the "normal" atomic mass that's on the periodic table eg: Cl = 35.5 its abundancy is 75% Cl35 and 25% Cl37.
The formula for mass number is number of neutrons = mass number - atomic number. Mass number can also be referred to as nucleon number.
The atomic weight of uranium is 238,02891(3) atomic mass units. The mass number is the total number of nucleons (protons an neutrons) in the nucleus; the mass number is different for each isotope: 234U: mass number 234 235U: mass number 235 238U: mass number 238
We can find atomic mass and mass number in chemical elements. Atomic mass is about weight of the atom. Mass number is about total of neutrons and protons.
Chlorine has an atomic mass of 35.5 because the atomic mass of an element is the number of protons plus the number of neutrons. In chlorine, there are always 17 protons (the number of protons in an atom is what makes it whichever element it is), but it is possible to have different amounts of neutrons in the atom. These are called different isotopes of an element. In chlorine, there can be between 17 and 20 neutrons meaning the mass number can range between 34 and 37. The reason that it is written as 35.5 on the periodic table is because that is the average mass number.
Isotopes are atoms of the same chemical element that have different masses due to differing numbers of protons in the nucleus. These are all averaged out to give the "normal" atomic mass that's on the periodic table eg: Cl = 35.5 its abundancy is 75% Cl35 and 25% Cl37.
yes mass can be a number
Number of neutrons = Mass number - atomic number
The formula for mass number is number of neutrons = mass number - atomic number. Mass number can also be referred to as nucleon number.
Atomic mass is the number of protons in an atom mass number is the number of protons plus neutrons in an atom the number of neutrons would equal the mass number minus the atomic number.
Mass number = Number of protons + number of neutrons
The atomic weight of uranium is 238,02891(3) atomic mass units. The mass number is the total number of nucleons (protons an neutrons) in the nucleus; the mass number is different for each isotope: 234U: mass number 234 235U: mass number 235 238U: mass number 238
We can find atomic mass and mass number in chemical elements. Atomic mass is about weight of the atom. Mass number is about total of neutrons and protons.
We can find atomic mass and mass number in chemical elements. Atomic mass is about weight of the atom. Mass number is about total of neutrons and protons.
We can find Atomic Mass and mass number in chemical elements. Atomic mass is about weight of the atom. Mass number is about total of neutrons and protons.
We can find Atomic Mass and mass number in chemical elements. Atomic mass is about weight of the atom. Mass number is about total of neutrons and protons.