The Liquid Phase (College Board AP® Chemistry)
Study Guide
Written by: Oluwapelumi Kolawole
Reviewed by: Stewart Hird
The Liquid Phase
The particles in liquids are in constant random motion but are more tightly packed and have much less free space between them
Unlike solids, the particles of liquids are able to move relative to one another, which means that liquids can flow
Liquid Phase
Diagram showing the arrangement and movement of particles that make up the liquid phase
However, the lack of empty space between these particles makes them nearly incompressible
Unlike gases, the size of liquid and solid particles compared to the distance between them cannot be ignored
Hence, they have fixed volume and there are no equations to describe the properties of liquid or solid state as they exist for gases
The properties of liquids such as surface tension, viscosity, boiling point and vapor pressure are dependent on two main factors:
The nature and strength of the intermolecular forces between the particles of the liquid
Temperature
Generally:
Surface tension — the energy required to increase the surface area of a liquid by a unit amount— increases with increasing strength of intermolecular force
Viscosity, which measures the resistance to the flow of liquids also increases with increasing intermolecular attraction but decreases with increasing temperature
Vapor pressure and boiling point of a liquid are dependent on the strength of the intermolecular force between the particles of the liquid
The stronger the intermolecular force, the lower the vapor pressure and the higher the boiling point of the liquid
Molar Volume in the Solid and Liquid Phase
The solid and liquid phases for a particular substance typically have similar molar volume
This is because the distance between the particles of the substance in the solid phase is approximately the same as the distance between the particles in the liquid phase
Molar volume refers to the volume of one mole of a substance under standard conditions
Table of Molar volumes for metals in solid and liquid states
Metal | Molar Volume of Solid (L) | Molar Volume of Liquid (L) |
|---|---|---|
Silver (Ag) | 10.3 | 10.7 |
Aluminum (Al) | 10.0 | 10.5 |
Gold (Au) | 10.2 | 10.5 |
Copper (Cu) | 7.1 | 7.3 |
Nickel (Ni) | 6.6 | 6.8 |
Lead (Pb) | 18.3 | 18.7 |
Platinum (Pt) | 9.1 | 9.4 |
Palladium (Pd) | 8.9 | 9.1 |
The table shows that the molar volumes of metals are similar in both solid and liquid states. The slight differences in value are due to the small space between the particles of the metals in the liquid state, allowing them to flow.
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