If you mean Sulphur (s) It's 2.8.6
Chlorine has one more electron then sulfur, so it has 1 more electron in the outer shell, 1 more valence electron. Chlorine has 5 electrons in the outermost shell and sulfur has 4.
Sulfur has 10 core electrons. Because the core electrons = all electrons that aren't valence electrons. Sulfur has 16 electrons; 6 valence and 10 core.
'S' look for it on the periodic table for full name.
The electron configuration of sulfur is: [Ne]3s23p4.
Electron arrangement makes it easy to know the number of electrons in the outermost energy level of atoms. Carbon, hydrogen, fluorine, argon, sulfur and magnesium have 4, 1, 7, 8, 6 and 2 electrons in their outermost energy levels respectively.
Sulfur must to have an electrons octet.
Chlorine has one more electron then sulfur, so it has 1 more electron in the outer shell, 1 more valence electron. Chlorine has 5 electrons in the outermost shell and sulfur has 4.
Sulfur has 10 core electrons. Because the core electrons = all electrons that aren't valence electrons. Sulfur has 16 electrons; 6 valence and 10 core.
All the isotopes of sulfur has 16 electrons.
Sulphur has 6 valence electrons
Sulphur (Sulfur in the US) Location of electrons is not important to determine which element it is. 16 electorns means that it would have 16 protons in it's nucleus, so 16 is atomic number of the element. It would have 16 neutrons in it's nucleus too (it is usually one neutron for each proton), which make atomic weight of this element equal to 32.
Sulfur has 6 electrons in the valence shell.
'S' look for it on the periodic table for full name.
The electron configuration of sulfur is: [Ne]3s23p4.
There are 6 valence electrons in the sulfur atom.
Because sulfur's valence shell is more than half full with 6 electrons. I takes less energy for sulfur to gain 2 electrons than it does for sulfur to lose electrons.
Sulfur must gain two electrons.