
Interpretation:
The fact that ionic solids typically have melting points hundreds of degrees higher than the melting points of molecular solids have to be explained.
Concept Introduction:
Crystalline solids are solid compounds with highly ordered structure of the constituents (atoms, molecules or ions). Depending on the constituents (atoms, molecules or ions), the crystalline solids are classified in three types-
- Ionic solids
- Molecular solids
- Atomic solids

Explanation of Solution
The difference in melting point between ionic solids and molecular solids can be explained by considering intermolecular attractive forces which held the constituents together inside the solids. Intermolecular attractive force in ionic solids is the strong electrostatic attraction between two oppositely charged ions. Due to this attraction the ions are held together very tightly. Whereas the molecules in a molecular solid are held together by van der Waals forces which is much weaker than the electrostatic force. To melt the ionic solids, strong electrostatic forces between ions have to be broken. Higher energy is required for ionic solids. That is why ionic solids have higher melting points than the melting points of molecular solids.
Chapter 14 Solutions
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