silcon has the lowest electronegtaivity so would most likely form covalent bonds. Sulfur is next (although with group1 and 2 metals it forms ionic compounds) oxygen and chlorine have high electronegativites so form many ionic compounds - however they also form covalent compunds as well.
There are four unpaired electrons in outermost shell of excited carbon atom so it may form four covalent bonds.
The diatomic chlorine molecule has 1 sigma and 0 pi bonds.
There is one covalent bond between two chlorine atoms in a molecule of chlorine.
Only one bond, as both Hydrogen and Chlorine have one electron in valence shell, so they can have one bond by pairing the electron of last shell to form hydrogen chloride HCL.
Chlorine forms just one bond.
Chlorine usually forms ionic bonds with metals and covalent bonds with nonmetals,but it also forms coordinate bonds in some cases ,in HCl chlorine may form hydrogen bonding.
Four
they trade and share electrons, depending on how many are in there outer shell.
This question is misguided. A compound does not form bonds. It may undergo a chemical reaction and parts of it will form new bonds with other things. Perhaps you mean how many bonds are there in the compound already? There is one between the hydrogen and the carbon, and three between the carbon and the nitrogen, so that's a total of four.
silcon has the lowest electronegtaivity so would most likely form covalent bonds. Sulfur is next (although with group1 and 2 metals it forms ionic compounds) oxygen and chlorine have high electronegativites so form many ionic compounds - however they also form covalent compunds as well.
The chemical element of chlorine has 18 nuetrons,17 protons and 17 electrons
There are four unpaired electrons in outermost shell of excited carbon atom so it may form four covalent bonds.
The diatomic chlorine molecule has 1 sigma and 0 pi bonds.
There is one covalent bond between two chlorine atoms in a molecule of chlorine.
Without hybridization, oxygen has a valence electron configuration of 2s22p4. Which means it has 2 unpaired electrons; therefore it can form 2 bonds.
Only one bond, as both Hydrogen and Chlorine have one electron in valence shell, so they can have one bond by pairing the electron of last shell to form hydrogen chloride HCL.