Well, some website said that it was in group Va, but what is group Va?
Antimony (Sb, # 51) has 5 valence electrons (and so do all the other elements in that group.)
There would be five valence electrons that are counted toward the central p atom. This is because phosphorus has five valence electrons in its outer shell.
Nitrogen has 5 valence electrons. Its atomic number is 7 therefore it has a total of 7 electrons. If you put this in a Bohr-Rutherford Diagram, there would be 2 electrons in the first shell (Helium structure) and 5 electrons in the outer shell. The number of electrons in an element's outermost shell is its number of valence electrons.
Two elements that need 3 electrons to complete their valence shell are nitrogen and phosphorus. Nitrogen has 5 electrons in its valence shell and needs 3 more to have a full shell, while phosphorus has 5 electrons in its valence shell as well and requires 3 more to achieve stability.
A nitrogen molecule, N2, has a total of 10 valence electrons. Each nitrogen atom contributes 5 valence electrons.
Antimony (Sb, # 51) has 5 valence electrons (and so do all the other elements in that group.)
Phosphorus is a group 15 element. All group 15 elements have 5 valence electrons. Thus, phosphorus has 5 valence electrons.
There would be five valence electrons that are counted toward the central p atom. This is because phosphorus has five valence electrons in its outer shell.
Nitrogen (N) and phosphorus (P) both have 5 valence electrons.
Nitrogen has 5 valence electrons. Its atomic number is 7 therefore it has a total of 7 electrons. If you put this in a Bohr-Rutherford Diagram, there would be 2 electrons in the first shell (Helium structure) and 5 electrons in the outer shell. The number of electrons in an element's outermost shell is its number of valence electrons.
5 valence electrons.
Two elements that need 3 electrons to complete their valence shell are nitrogen and phosphorus. Nitrogen has 5 electrons in its valence shell and needs 3 more to have a full shell, while phosphorus has 5 electrons in its valence shell as well and requires 3 more to achieve stability.
5
A nitrogen molecule, N2, has a total of 10 valence electrons. Each nitrogen atom contributes 5 valence electrons.
== == It is three, the valence electrons basically depends on the last number of the group its in; such as, group 14 the valence electrons would be 4. i hope i helped
Group #15 has 5 valence electrons
Valence electron configuration in group 7A (halogens): ns2, np5 in which n=2, 3, 4, 5, ... etc. Starting with fluorine, F, electron configuration: (1s2), 2s2 2p5 (non valence electrons in () brackets)