İyonik bileşikler birbirine güçlü kimyasal bağlarla bağlı. Bu yüzden aralarındaki çekim kuvveti fazla olur. İyonik bileşikleri iyon atomları bir arada tutar. Birbirine kimyasal bağ ile bağlı iyonik bağ taşır. Nadir olarak zayıf wan der waals bağı bulunabilir.

Dr Sukru Aktas thank you for your contribution to the discussion

An ionic lattice is held together by strong electrostatic forces of attraction between the oppositely charged ions. The forces act in all directions in the lattice. This is called ionic bonding. In an ionic bond, the two oppositely charged ions are held together by strong electrostatic force of attraction. Chemical compounds in which anions and cations are held together by electrostatic force of attraction are known as ionic compounds. In an ionic bond, the two oppositely charged ions are held together by strong electrostatic force of attraction. Q. Chemical compounds in which anions and cations are held together by electrostatic force of attraction are known as ionic compounds. Ionic compounds are solids held by the strong forces of attraction called electrostatic forces between the positive and negative ions. Ionic compounds have strong electrostatic forces of attraction between the ions. Therefore, it requires a lot of energy to overcome these forces. The opposite charges on the ions cause the ions to bond, or be held together, by electrostatic forces. An ionic bond is a bond between ions where oppositely charged atoms attract each other and cancel their charges to produce neutral compounds. A chemical bond may be defined as the force of attraction between the atoms that bind them together as a unit called a molecule. All the elements have different valence shell electronic configurations. Oppositely charged particles attract each other. This attractive force is often referred to as an electrostatic force. An ionic bond is the electrostatic force that holds ions together in an ionic compound. The force that holds atoms together in a compound is called a chemical bond. There are three types of chemical bonds: covalent, polar covalent and ionic bonds. Metallic bonds result from the electrostatic attraction between metal cations and delocalized electrons. The nature of metallic bonding accounts for many of the physical properties of metals, such as conductivity and malleability