the number of protons and neutrons in an atom.
Atomic Mass is found by adding together the individual masses of the numbers of protons, neutrons, and electrons in the atom. --> Atomic Mass = protons + neutrons
Atomic mass is the average mass of all isotopes of a given element.
Br^-
Symbol Name Atomic Number Atomic Mass
The atomic mass and the relative abundance of each naturally occurring isotope of chlorine.
Kripton is a non metal element. Atomic mass of it is 83.80.
Atomic mass is the average mass of all isotopes of a given element.
Br^-
atomic number and its squrare
Symbol Name Atomic Number Atomic Mass
The formula of the compound and the Atomic Mass of its elements.
The atomic mass and the relative abundance of each naturally occurring isotope of chlorine.
Kripton is a non metal element. Atomic mass of it is 83.80.
The atomic number is the number of Protons The mass number is the number of Protons and Neutrons The number of Electrons always equals the number of Protons Therefore according to the above information the atomic number of the atom is 5 HOWEVER there is NO element with a mass number (atomic mass) of 9 with an atomic number of 5. You question is impossible to answer. Beryllium has an Atomic mass of 9.0122 and an Atomic number of 4 Boron has an Atomic mass of 10.811 and an Atomic number of 5
The atomic number of carbon is 6. The atomic mass number is 12.011. This information can be found easily on the periodic table of elements.Also on websites that have the periodic table.
Atomic no.=no. of protons Atomic mass=no. of protons+no. of neutrons Hence, atomic mass is greater
The atomic mass is the mass of a molecule, atomic particle or sub-atomic particle.
No. A carbon atom has both an atomic number and an atomic mass. All carbon atoms have an atomic number of 6. The most common carbon atom has an atomic mass of 12. See the Related Questions for more information about carbon, isotopes and atomic number and atomic mass.Go to Answers.com and punch in "carbon isotopes" and it will show you various isotopes and the atomic mass (u) associated with each (shown as isotopic mass).