A hydrogen bond is weaker than a covalent bond.
Covalent bonds are much stronger than hydrogen bonds. Covalent bonds have bond energies from about 155 to 1000 kJ/mol. Hydrogen bonds usually have bond energies from 20 to 30 kJ/mol even though some hydrogen-fluorine hydrogen bonds can have bond energies greater than 155 kJ/mol.
No.
Hydrogen bonds are not actually bonds - they are a (strong) form of intermolecular forces. A hydrogen bond is the attraction between the hydrogen atom of a polar nitrogen-hydrogen, oxygen-hydrogen, of fluorine-hydrogen bond and an electronegative oxygen, nitrogen, or fluorine atom.
Intermolecular forces hold one molecule together with another molecule, and intramolecular forces (bonds) hold together the atoms of a molecule.
covalent bonds
Yes it is
no
== ==Yes, a covalent bond is stronger than a polar bond.
Covalent
There is no general answer to this question: One of the strongest of covalent bonds is that between two nitrogen atoms in a nitrogen molecule, which is non polar covalent. In contrast, a carbon-carbon single bond, also usually non polar covalent, is relatively weak. The polar covalent bond between hydrogen and fluorine in the gas phase is very strong, while a hydrogen-iodine bond is relatively weak.
No. There is no hydrogen bond in chloromethane.
A covalent bond involves the sharing of electrons, while hydrogen bonding does not.
== ==Yes, a covalent bond is stronger than a polar bond.
Covalent
There is no general answer to this question: One of the strongest of covalent bonds is that between two nitrogen atoms in a nitrogen molecule, which is non polar covalent. In contrast, a carbon-carbon single bond, also usually non polar covalent, is relatively weak. The polar covalent bond between hydrogen and fluorine in the gas phase is very strong, while a hydrogen-iodine bond is relatively weak.
HCl (hydrogen chloride) has a covalent bond, polar.
The covalent bond between carbon and hydrogen is NON-POLAR.
No. There is no hydrogen bond in chloromethane.
A covalent bond involves the sharing of electrons, while hydrogen bonding does not.
A covalent bond. Non-polar covalent is stronger than polar covalent as well.
The bond between hydrogen and fluorine is polar covalent.
Polar covalent. The difference in electronegtivity is insufficient for an ionic bond
No. Both hydrogen atoms "pull" on the electrons with equal force, so the charge is the same at both ends.
The bond between carbon and hydrogen is covalent, in which carbon and hydrogen share a pair of electrons.