If you are talking about the attraction of water to the ions of the salt, the water is attracted by dipole-dipole interactions.
Cohesive forces, or intermolecular attractions, hold liquids and solids together. Without intermolecular attractions, only gases could exist. (And plasmas too, but that's not the point of this question.)
van der Waals forces of attractions.
Other molecules
they have to over come enthalpy of dissociation and while over coming this thy loose attraction in a compound at this time the other forces in water are stronger it leads to formation new bond.
like forces repel, unlike forces attract(:
The strong ionic forces (electrostatic) of attractions that exists between the positively and negatively charged molecules keeps the ions together. remember that oppositely charged ions tend to attract. The is also weak Van der waals forces of attraction.
Cohesive forces, or intermolecular attractions, hold liquids and solids together. Without intermolecular attractions, only gases could exist. (And plasmas too, but that's not the point of this question.)
A. Convert bonds B. Ionic attractions C. Intermolecular forces D. Metallic bonds
by the forces of the nagitve and positive attractions
Within the molecule, covalent bonds hold them together. Between the molecules there can be several different forces. There are dipole-dipole attractions, hydrogen bonds and van der Waals forces. Which of them apply in a particular substance depends on the structure of the molecules.
All chemical bonds, including those found in network solids, derive from the electromagnetic force. Positively charged protons attract negatively charged electrons. Although atoms start off with an equal number of protons and electrons, and are therefore electrically neutral, the electrons rearrange themselves in ways that create attractions between atoms. Covalent bonds
They are called ionic forces :D Hope it helps
In both, opposites attract.
superman
van der Waals forces of attractions.
These forces are called adhesion forces.
London forces, dipole attractions and hydrogen bonding are some of the examples for intermolecular attractions in the order of increasing strength.