Phase Change
Vapor Pressure
Intermolecular Bonding
Solids |
7.1 use a kinetic-molecular model to describe the structure of a liquid and a solid.
7.2 characterize the enthalpy associated with any phase change.
7.3 define the term equilibrium vapor pressure and sketch the kinetic-molecular model of a liquid in equilibrium with its vapor.
7.4 determine the experimental vapor pressure for a liquid using a barometer.
7.5 describe how temperature effects the vapor pressure of a liquid using kineticmolecular model.
7.6 write and use the mathematical equation that describes the dependence of vapor pressure on temperature.
7.7 define and illustrate using diagrams of atoms, ions or molecules, the intermolecular attractive forces: ion-dipole, dipole-dipole, London dispersion and hydrogen-bonding.
7.8 predict the major types of intermolecular attractive force that occur between any two particles in the liquid phase.
7.9 identify and give representative examples of atomic solids, molecular solids, ionic solids, covalent solids, and metals.
7.10 illustrate the characteristic packing arrangement for simple cubic, body-centered cubic and face-centered cubic lattices.
7.11 define the term unit cell and draw the unit cell for simple cubic, body-centered cubic and face-centered cubic lattices.
7.12 determine the number of particles in a unit cell for simple cubic, body-centered cubic and face-centered cubic lattices. |