No. A covalent bond acts solely within a molecule.
An intermolecular force acts between two or more separate molecules
Hydrogen bonds
weak intermolecular forces because dry ice with sublime
Double covalent intramolecular bonds with the oxygen. Van der Waal's intermolecular bonds.
The bonds between H-O atoms are polar bonds (polar-covalent) angled in about 105o. But the intermolecular attraction between two or more molecules of water result in weaker hydrogen bonds.
Hydrogen bonds are the strongest intermolecular force between water molecules, it occurs between a negatively charged oxgen atom of one water molecule and the positively charged hydrogen atom. This is the strongest inter molecular force there is.
Covalent bonds
Intramolecular forces are not intermolecular forces !
The molecule CH3Cl has covalent bonds. In all chemical bonds, the type of force involved is electromagnetic.
Covalent bond
Protein molecules have covalent bonds in them, and there are hydrogen bonds that act as intermolecular bonds.
The molecule CH3Cl has covalent bonds. In all chemical bonds, the type of force involved is electromagnetic.
Dispersion forces
intermolecular forces
Hydrogens Bonds
covalent bonds
Covalent bonds exists between atoms within a molecule. And liquids can consist of such molecules. However, covalent bonds are not a type of intermolecular bond (bonds such as van der Waals bonds, hydrogen bonds, etc.). As such, they do not define the bonds present between molecules in liquids.
Hydrogen bonds