It is a molecule with a covalent bonding.
No, because the molecules are neutral so therefore there are no charged particles to carry a current.
3 in neutral molecules: e.g. 3 in ammonia (3 single N-H covalent bonds); 3 in a nitrogen molecule (a triple N-N covalent bond) However 2 electrons are not used in bonding, and these can form another covalent bond in which both electrons come from the nitrogen. This is a dative or coordinate covalent bond and will result in an ion e.g. ammonium ion, NH4+
Molecules can be polar or non-polar; bonds are what hold molecules together, but they are not in themselves polar or non-polar. I should point out that the most famous polar molecule in the world, the water molecule, does have covalent bonds.
Ionic compounds contain ions, there are no neutral molecules. These are often charged atoms as in NaCl but may be polyatomic ions such as NH4+ which contains covalent bonds
molecules- Sid Kothari
It is a molecule with a covalent bonding.
No, because the molecules are neutral so therefore there are no charged particles to carry a current.
A neutral particle formed when atoms share electrons?
3 in neutral molecules: e.g. 3 in ammonia (3 single N-H covalent bonds); 3 in a nitrogen molecule (a triple N-N covalent bond) However 2 electrons are not used in bonding, and these can form another covalent bond in which both electrons come from the nitrogen. This is a dative or coordinate covalent bond and will result in an ion e.g. ammonium ion, NH4+
Molecules can be polar or non-polar; bonds are what hold molecules together, but they are not in themselves polar or non-polar. I should point out that the most famous polar molecule in the world, the water molecule, does have covalent bonds.
Ionic compounds contain ions, there are no neutral molecules. These are often charged atoms as in NaCl but may be polyatomic ions such as NH4+ which contains covalent bonds
It is called a molecule which is covalently bonded in nature
Ionic compounds are giant lattices consisting of sufficient of proportions of each ion to produce an overall neutral structure. When molecular fluorides or oxides which might be expected to be ionic such as uranium hexafluoride or osmium tetroxide the bonding is essentially covalent. One compound Li2O in the vapour phase forms molecules which are linear not bent as per VSEPR theory and the bonding has been described as being ionic. In the solid lithium oxide is a typical lattice compound.
The only group of neutral elements is the noble gases. They are in group 0. They are electronically stable elements that do not tend to react. They exist as single molecules.
Hydrogen forms one covalent bond in electrically neutral compounds.
Hydrogen forms three covalent bonds in electrically neutral compounds.