30 valence electrons.
Valence electrons are on the outer shell of a atom. To find valence electrons, subtract the amount of electrons the noble gas has before the element from the number of electrons the element actually has.
Since the noble gas before carbon is Helium, you subtract 2 electrons from 6 electrons which gives you 4 valence electrons.
Since there are 6 carbon atoms, multiply 4 by 6 to get 24.
Do the same to the hydrogen atoms and add the valence electrons of the two molecules together and you should get 30 total valence electrons.
None. C6H14 is hexane - one of the paraffins.
That is a triple covalent bond.
32
64 - Apex
because it has 4 valance e- or 4 e- in it's outermost shell
46 chromosomes (23 pairs)
2
covalent
covalent
higher is the no of shared pairs of electrons higher will be the bond dissociation energy.
The general location of electrons in a covalent bond is that electrons are shared in pairs between 2 atoms. If 2 electrons pairs are shared, 4 electrons are shared in all.
Two pairs of shared electrons represents a double covalent bond.
There are three bonds between Nitrogen and hydrogen and there are thus 3 shared bonding pairs of electrons. in addition since Nitrogen is 1s22s22p3 there are also the none bonding 1s2 electrons and the 2s2 electrons making 5 total shared pairs of electrons.
The general location of electrons in a covalent bond is that electrons are shared in pairs between 2 atoms. If 2 electrons pairs are shared, 4 electrons are shared in all. They lie between the two nuclei of the bonding atoms. The shared electrons are typically near the middle of the bond between the 2 atoms, in a covalent bond. They may be slightly closer to 1 atom or the other, due to small differences in electronegativity.
Yes. Two pairs of shared electrons would form a double covalent bond.
The pairs of electrons are shared between atoms.
Covalent compound
Four pairs.