1 States of Matter A brief overview
1. Kinetic-Molecular Theory 2 Describes a state of matter in terms of particles in motion. Gas particles are far apart (mostly empty space) Collisions between gas particles and their container are elastic Gas particles are in constant, rapid, random motion There are no forces of attraction between gas particles. The temperature of a gas depends on the average Kinetic Energy of the particles KE = ½ mv2
Gas Properties Expansion = expand to fill container Fluidity = gas particles glide easily past each other Low Density = because particles are so far apart, they are less dense than other states Compressibility = gases can be compressed into a small volume Diffusion = spontaneous mixing of gases due to random motion Effusion = process by which gas particles pass through a tiny opening
Liquid Properties Definite volume and takes shape of its container In constant motion, but particles are closer together (attractive forces are therefore more effective) Fluid = particle mobility, usually flows downhill naturally due to gravity Relatively high density = 100x more dense than in gas state Relative incompressibility = due to packed particles Ability to diffuse = mix with other liquids (slower than gases, increases with temp)
Liquid Properties Cont. Surface Tension = a force that tends to pull adjacent parts of a liquid’s surface together (creates spherical droplets) Capillary Action = attraction of the surface of a liquid to the surface of a solid Evaporation = particles escape the surface of a non-boiling liquid to enter the gas state Boiling = change of liquid to bubbles of vapor that appear throughout the liquid Formation of Solids = when a liquid is cooled, energy of particles decrease
Solid Properties Hold relatively fixed positions Particles are closely packed, highest intermolecular forces Only vibrational movement, more ordered 2 Types of Solids Crystalline Solids (consist of crystals) Amorphous solids (particles arranged randomly Definite Shape & Volume = some are geometrically regular
Solid Properties Cont. Definite melting point = the kinetic energy of the particles overcome the attractive forces holding them together (amorphous solids don’t have definite melting point, and are often called supercooled liquids) high density and incompressibility = substances are most dense when a solid Low rate of Diffusion = extremely slow Crystalline Solids arranged in crystal structures
2. Intermolecular Forces 3 2. Intermolecular Forces Inter- vs. Intra- Inter means between two separate particles Intra refers to a force (or bond) within a particle Example: CO2
Dipole-Dipole Forces: 4 Dispersion Forces: Weakest Between nonpolar molecules Example: oxygen Dipole-Dipole Forces: Stronger Between polar molecules Example: HCl Hydrogen bonds: Strongest Between hydrogens and F, O or N Example: water
3. Phase Changes 5 GAS LIQUID SOLID
4. Heating and Cooling Curves 6 4. Heating and Cooling Curves Heating Curve Temperature (celsius) G L + G L S + L S Time (min)