Hydrogen bonding between water molecules is neither covalent nor ionic. It is a weak electrostatic attraction between the oxygen atom of one water molecule and a hydrogen atom of another water molecule. There is no sharing or transfer of electrons between the molecules.
There are the hydrogen - oxygen bonds of individual atoms in the water molecule, which are of course covalent. But in addition there are hydrogen bonds between atoms of adjacent molecules which form a hydrogen bond. This is a weak type of bond - merely the positive nature of the hydrogen atom (who's electron is busy in its covalent bond to an oxygen atom of its molecule), being attracted to the negative nature of (one of) the two filled valance orbitals on the oxygen atom of a near-by molecule. Similar such bonds between molecules that don't contain hydrogen are simply referred to as London forces.
Please refer to the related link below. The symbol that looks like a lower case "d" is a delta symbol and means partial. So "d+" means partial positive charge and "d-" means partial negative charge.
There are covalent bonds within a water molecule and hydrogen bonds between water molecules.
interaction with water, dipole dipole interaction, within the phospholipid itself covalent
ionic - Sodium Chloride Covalent - Water ionic - Sodium Chloride Covalent - Water
ionic - Sodium Chloride Covalent - Water ionic - Sodium Chloride Covalent - Water
Hydrogen bonding
hydrogen bonding between H2O and covalent bonding within the H2O molecule
interaction with water, dipole dipole interaction, within the phospholipid itself covalent
ionic - Sodium Chloride Covalent - Water ionic - Sodium Chloride Covalent - Water
ionic - Sodium Chloride Covalent - Water ionic - Sodium Chloride Covalent - Water
Hydrogen bonding
The hydrogen and oxygen in water mainly have covalent bonds. However there are some ionic bonds; otherwise, water would not have a pH. It also has some hydrogen bonding, which raises the temperature of its melting and boiling.
hydrogen bonding between H2O and covalent bonding within the H2O molecule
Hydrogen chloride is covalent in pure form but ionizes when it dissolves in water.
Hydrogen oxide (a.k.a. water) is a polar covalent compound.
Intermolecular is the bonding between the molecules (what connects them all together) For example dispersion, dipole-dipole, hydrogen bonding (HFON)Intramolecular is the bonding between the atoms like ionic covalent or metallic.For example in a water molecule the intermolecular bonding would be the hydrogen bonding. The non-bonding pairs will connect with other water molecules non-bonding pairs to create a hydrogen bond. Whereas the intramolecular bonding would be covalent. Because that's what joins the individual hydrogen atoms to one oxygen atom.
HCl (Hydrogen Chloride) is a covalent compound and forms a covalent bond. However, if water is added to hydrogen chloride, it forms hydrochloric acid which is an ionic compound that has ionic bonds.
Within the molecule itself, water exhibits ionic bonding. Between the water molecules, there is hydrogen bonding.
No. Water exhibits mainly hydrogen binding, where hydrogen bonds to either fluorine, nitrogen, or oxygen. It could also be considered a type of polar covalent bond. Ionic bonding is strictly a positive-negative attraction between ions of opposite charges.