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BELL RINGER What happens to gas particles when a gas is heated? • Average Kinetic energy increases (speed) • More collisions between particles and between particles and container. Topic 7 The Kinetic-Molecular Theory Table of Contents Section 1 The Kinetic-Molecular Theory of Matter Section 2 Liquids and Solids Section 3 Changes of State Section 4 Water Topic 7 Section 2 Liquids and solids • How are you able to tell that a container is filled with a liquid? • Liquids have definite volume but take the shape of their container. • How is this different from gases? • Gases do not have a fixed shape or a fixed volume. Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT • The attractive forces between particles in a liquid are more effective than those between particles in a gas. • This attraction is caused by the intermolecular forces: • dipole-dipole forces • London dispersion forces • hydrogen bonding Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT • The particles in a liquid move about constantly. • A fluid is a substance that can flow and therefore take the shape of its container. 1.Relatively High Density • At normal atmospheric pressure, most substances are hundreds of times denser in a liquid state than in a gaseous state. Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT 2. Relative Incompressibility • Liquids are much less compressible than gases because liquid particles are more closely packed together. 3. Ability to Diffuse • Any liquid gradually diffuses throughout any other liquid in which it can dissolve. The constant, random motion of particles causes diffusion in liquids. Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT 3. Ability to Diffuse •Diffusion is much slower in liquids than in gases. Why? • Liquid particles are closer together. • The attractive forces between the particles of a liquid slow their movement. •As the temperature of a liquid is increased, diffusion occurs more rapidly. Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT Surface Tension • A force that tends to pull adjacent parts of a liquid’s surface together, thereby decreasing surface area to the smallest possible size. • The higher the force of attraction between the particles of a liquid, the higher the surface tension. Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT •Capillary action is the attraction of the surface of a liquid to the surface of a solid. •This attraction tends to pull the liquid molecules upward along the surface. •The same process is responsible for the concave liquid surface, called a meniscus, that forms in a test tube or graduated cylinder. Topic 7 Section 2 Liquids and solids Properties of Liquids and the KMT Evaporation and Boiling • The process by which a liquid or solid changes to a gas is vaporization. • Evaporation is the process by which particles escape from the surface of a nonboiling liquid and enter the gas state. • Evaporation occurs because the particles of a liquid have different kinetic energies.
