6
Exactly enough to fill all the orbitals of their outermost (valence) shell:Hydrogen and Helium only have an s orbital in their outer shell, this shell is filled with 2 electronsAll other elements have an s orbital and 3 p orbitals in their outer shell, each orbital can take 2 electrons so this shell is filled with 8 electrons
It has two valence electrons in the S orbital
Two valence electrons at second s- and p-level each: 2s2 2p2 The other two are nonvalence electrons on 1st s-level: 1s2
In general, the electronic structure of the valence electrons of halogens is given by: ns2, np5 where n is the period in which the halogen is found. Since the valence electrons are found in both s and p orbitals which have slightly different energies, the valence electrons of halogens are not in orbitals of the same energy level.
6
Each H has 1. Each O has 6 and the S has 6. That's a total of 32 valence electrons.
In total there are 16 from the sulfur atom and 36 from the four fluorin atoms, making 52 in all. In drawing the Lewis dot diagram you would ignore only consider the valence electrons 6 from sulfur and 1 from eeach of the four fluorines making 10 in all, giving 5 electron pairs around the sulfur atom.
The valence electrons are found in the outer shell of an atom, in the s and p orbitals. They are the electrons involved in ionization and any chemical bonds (ionic, polar or covalent). There can be up to 8 valence electrons, and the number available on an atom of any particular element can be determined from its position on the periodic table.
38.
It is the number of electrons on the outer level of the atom. There is a maximum of 8 valence electrons on one level.
c=4 valence electrons S=6 valence electrons but since its S2 you times 6 by 2=12 12+4=16 16 valence electrons total for CS2
There r 16 electrons in s, sulfur. There r only 6 valence electrons
There are ONLY 2 valence electrons in Co, valence electrons come only from the s orbital and the p orbital, giving only 2 for Cobalt.
The electrons in the valence band, this can be 1 to 8 electrons (in the s and p orbitals of the outer shell) depending on the element.
The valence electrons are the outermost (highest energy) s and p sublevels. There are 5 valence electrons in a phosphorus atom, and it is in period 3, so its valence electron configuration is 3s23p3.
Exactly enough to fill all the orbitals of their outermost (valence) shell:Hydrogen and Helium only have an s orbital in their outer shell, this shell is filled with 2 electronsAll other elements have an s orbital and 3 p orbitals in their outer shell, each orbital can take 2 electrons so this shell is filled with 8 electrons