Esters cannot form hydrogen bonds with other esters because there wouldn't be enough room on the molecules to support the hydrogen bonding (octet rule).
hydrogen bonds. The other bonds are covalent bonds.
Hydrogen bonding.
Hydrogen bonds hold water molecules to each other. They're the strongest of the Van der Waal's forces.
It's a bond that is relatively easily broken, compared to other bonds.
The question makes no sense. There's no such thing as a "nitrogen bond". If you mean "nitrogen atoms", then there are no hydrogen bonds between nitrogen atoms. If you mean "hydrogen bonds between a hydrogen and a nitrogen", then they break like any other hydrogen bond; they aren't really "bonds", just relatively strong electrostatic forces.
Hydrogen bonds
Hydrogen Bonds
Water has two main bonds: hydrogen bonds between other water molecules, and a covalent bond between hydrogen and oxygen.
hydrogen bonds. The other bonds are covalent bonds.
The bonds are hydrogen bonds.
hydrogen bonds
Hydrogen bonding.
Hydrogen bonds hold water molecules to each other. They're the strongest of the Van der Waal's forces.
Strong hydrogen bonds as the Oxygen is really electronegative and the hydrogen is really unelectronegative. The hydrogen bonds to the oxygen of another molecule.
Water is composed of molecular bonds, but forms hydrogen bonds with other water molecules. Hydrogen bonds are not actual bonds, but they cause an attraction between the water molecules, which is why water is adhesive.
Hydrogen bonds. There are three hydrogen bonds between G and C and two between A and T.
It's a bond that is relatively easily broken, compared to other bonds.