Want this question answered?
The mass number indicates the number of protons AND neutrons in the nucleus. Since the number of neutrons can vary, so can the mass number. The different versions of elements based on the number of neutrons are called isotopes. Sulfur-35 has an atomic mass of 35. So, it has a total of 35 protons and neutrons in the nucleus. Since sulfur always has 16 protons, then the number of neutrons in this isotope is 19. (35 - 16 = 19)
Chlorine is a non metal element. Mass number of it is 35.
Zinc's isotope that has 35 neutrons is Zinc-65.
The element with an atomic number of 17 and atomic mass of 35 is chlorine (Cl).
This isotope is copper-64.
19 neutrons 16 protons and electrons
The mass number indicates the number of protons AND neutrons in the nucleus. Since the number of neutrons can vary, so can the mass number. The different versions of elements based on the number of neutrons are called isotopes. Sulfur-35 has an atomic mass of 35. So, it has a total of 35 protons and neutrons in the nucleus. Since sulfur always has 16 protons, then the number of neutrons in this isotope is 19. (35 - 16 = 19)
Chlorine is a non metal element. Mass number of it is 35.
Sulfur is a non metal element. Mass number of it is 32.
Sulfur is a non metal element. Mass number of it is 32.
3 "tens of units" plus 5 "units".
19, because since you know sulfur has 16 protons because that's its atomic number. you do 35-16=19
This depends on the isotope mass number: There are two stable natural occurring isotopes Br-79 (50.5%) and Br-81 (49.5%) Substract the atom number 35 from it and you'll find the number of neutrons (44 and 46), because 35 protons with 44 (or 46) neutrons gives you the mass number 79 (or 81)
The atomic number 35 corresponds to bromine, and the symbol would be 81Br.
Zinc's isotope that has 35 neutrons is Zinc-65.
A silicon isotope called silicon 35, with 35 neutrons instead of the regular 14.
Isotope Ni-63 has 28 electrons (it is found by looking at the atomic number for Nickel on the periodic table) and has 35 neutrons (which is found by subtracting the number in the isotope, 63, by the atomic number, 28)