The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The answer is 11
Depending on the isotope. Number of neutrons = Atomic mass of the isotope - 84
Number of neutrons = Atomic mass of an isotope - Atomic number of the element The atomic number of hassium is 108; each isotope of an element has a different number of neutrons and a different atomic mass.
Number of Neutrons = Atomic mass minus Atomic Number. Neutrons = 18[Atomic Mass] - 8[Atomic Number] Neutrons = 10
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
Subtract the atomic number of the isotope from its atomic mass number to obtain the number of neutrons in an isotope.
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The answer is 11
The atomic mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
Number of neutrons = Atomic mass of an isotope - atomic number Atomic number of Cf is 98.
153 neutrons in the most stable isotope Number of neutrons = Atomic mass of an isotope - atomic number. Atomic mass of the most stable isotope of Cf is 251. Atomic number of Cf is 98.
Each isotope of an element has a different number of neutrons: Atomic mass of the isotope - Atomic number = Number of neutrons
The Atomic Mass is, basically, the sum of the protons (the "atomic number"), and the number of neutrons.
The number of neutrons is different for each isotope. Number of neutrons = Atomic mass of an isotope - 104
Depending on the isotope. Number of neutrons = Atomic mass of the isotope - 84