Biologically, hydrogen bonds are considered to be strong intermolecular forces.
Salt in water is considered to be a weak electrolyte. This is unless there is a great amount of salt in the water.
When discussing bond strength, the discussion centers around the amount of energy required to break the bonds, not maintain them. Weak bonds have higher negative potential energy then strong bonds.
Covalent bonds are pretty weak compared to the other type of bond, which is the ionic bond.
A chemical bond is an attractive force between atoms. It is caused by the electrostatic force of attraction between opposite charges, and forms either strong bonds or weak bonds.
Covalent bond is a strong chemical bond. Hydrogen bonds are weak bonds.
Yis strong by the double it
the bond is strong
Weak, due to the presence of water.
This depends on the type of bond: ionic bond is strong, hydrogen bond is weak.
It's a strong bond.
The property of strong and weak, as far as chemistry of atoms is concerned, it pertains to the strong and weak bonds that exist between two or more atoms. A strong bond would indicate that a higher dissociation energy is needed to split the two; eg ionic bond. Whereas, a weak bond is one which can be easily broken; eg Hydrogen bond. Also, the properties of strong and weak are given to acids and bases in the same context. Acids which easily dissociate into ions are weak and which do not are designated as strong. Same holds true with bases. Examples; weak acid is carbonic acid, acetic acid. strong acid is sulphuric acid. Weak base is ammonia, methylamine. Strong base is sodium hydroxide, potassium hydroxide.
Biologically, hydrogen bonds are considered to be strong intermolecular forces.
No, hydrogen bonding is a strong intermolecular force.
Because it doesn't really need a strong one :]
Hydrogen bonds. They are weak individually, but enough of them have some strength ( water, for instance ) through the are not strong enough to impede the splitting of the DNA molecule when a replicative process, for instance, needs preforming.
The bond dissociation constant is inversely correlated with the strength of the bond: Strong bonds dissociate slightly, weak bonds dissociate more thoroughly.