Chlorine has only one half-filled orbital. This means that it can only bond with one other atom.
Chlorine's valence shell (the 3rd) contains already 7 electrons so it'll need only ONE (=1) to fill it completely up to the noble gas configuration of Argon: 8 valence electrons.
In every chlorine atom, there are seven valence electrons.
Through covalent bonding, the nitrogen atom will have 8 valence electrons, the hydrogen atoms will each have 2 valence electrons, and the chlorine atom will have 8 valence electrons.
Chlorine has 7 valence electrons.
Seven.
There are 2 valence electrons in an atom of magnesium. There are 5 valence electrons that are in an atom of phosphorus. There are 4 valence electrons that are in a silicon atom.
A chlorine atom has 7 valence electrons.
There are 7 valence electrons in chlorine atom and 8 valence electrons in chloride ion.
In every chlorine atom, there are seven valence electrons.
In the question, it should be either "chlorine atom" or "chloride ion". Chlorine atom has 7 valence electrons. Chloride ion has 8 valence electrons.
Through covalent bonding, the nitrogen atom will have 8 valence electrons, the hydrogen atoms will each have 2 valence electrons, and the chlorine atom will have 8 valence electrons.
The element chlorine has seven electrons in its valence shell.
There are 7 valence electrons in a chlorine atom. The atomic number of chlorine is 17, which means it has an electron configuration of 2,8,7. This shows it has 3 shells of electrons, with 7 in the outer level.
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Chlorine has 7 valence electrons.
With an e- configuration of [Ne] 3s23p5, the atom will be found in Group VII A, meaning that there are 7 valence electrons.
The element chlorine has seven electrons in its valence shell.
Seven.