Ammonia is covalent compound.
Ammonia is a covalent compound. It is a compound of two nonmetals, nitrogen and hydrogen, so the difference in electronegativity is not great enough to cause ionic bonding.
NH3 is eventually covalent because they are sharing electrons.
Oh, dude, NH3 is actually not an ionic compound, it's ammonia. See, NH3 is a covalent compound because it's made up of nonmetals bonding together. So, it's like the cool kid in chemistry that doesn't follow the rules of ionic bonding.
Ammonia is a covalent compound. It consists of one nitrogen atom and three hydrogen atoms sharing electrons to form covalent bonds.
No, MgcI is not a molecular covalent compound. It is likely an ionic compound formed from a metal (Mg) and a nonmetal (I) through ionic bonding.
Ammonia is a covalent compound. It is a compound of two nonmetals, nitrogen and hydrogen, so the difference in electronegativity is not great enough to cause ionic bonding.
NH3 is eventually covalent because they are sharing electrons.
Oh, dude, NH3 is actually not an ionic compound, it's ammonia. See, NH3 is a covalent compound because it's made up of nonmetals bonding together. So, it's like the cool kid in chemistry that doesn't follow the rules of ionic bonding.
Ozone has covalent bonding. It is an allotrope of Oxygen.
it is ionic type of bonding
Ammonia is a covalent compound. It consists of one nitrogen atom and three hydrogen atoms sharing electrons to form covalent bonds.
No, MgcI is not a molecular covalent compound. It is likely an ionic compound formed from a metal (Mg) and a nonmetal (I) through ionic bonding.
No, wax is not an ionic compound. Wax is a covalent compound formed by the bonding of carbon and hydrogen atoms.
No, NI3 is not a covalent compound. It is a binary ionic compound formed between the metal nickel (Ni) and the nonmetal iodine (I) through ionic bonding.
Ammonia is a molecular compound. The hydrogen atoms share electrons with the nitrogen atom.
Caffeine is a covalent compound. It is composed of carbon, hydrogen, and nitrogen atoms that form covalent bonds by sharing electrons.
No, SnCl4 is a covalent compound. Tin (Sn) can exhibit both covalent and ionic bonding, but in SnCl4, it forms covalent bonds with the chlorine atoms.