![]() Types of solutions and factors affecting solubility.Changes of state and critical phenomena.Phase diagrams of one-component systems.Liquids and solids from the kineticmolecular viewpoint.Dependence of kinetic energy of molecules on temperature: Boltzmann distribution.Interpretation of ideal gas laws on the basis of this theory.Laws of ideal gases equations of state for an ideal gas.Geometry of molecules, ions, and coordination complexes.VSEPR theory and Lewis electron-dot diagrams.Polarity of bonds and electronegativities. ![]() Relationships to structure and to properties.Types: covalent, ionic, metallic, macromolecular (or network), dispersion, and hydrogen bonding.Nuclear chemistry: nuclear equations, half-lives, and radioactivity chemical applications.Periodic relationships, including, for example, atomic radii, ionization energies, electron affinities, and oxidation states.Electron energy levels: atomic spectra and atomic orbitals.Atomic number and mass number isotopes and mass spectroscopy.Atomic masses determination by chemical and physical means.Structure of Matter (20%) Atomic theory and atomic structure The percentages next to the main topics indicate the approximate percentage of exam questions on that topic. The subject matter of the Chemistry exam is drawn from the following topics. Interpretation: infer and deduce from data available and integrate information to form conclusions recognize unstated assumptions.Application: understand concepts and reformulate information into other equivalent terms apply knowledge to unfamiliar and/or practical situations use mathematics to solve chemistry problems. ![]()
0 Comments
Leave a Reply. |
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |