Computational based approach to physical science. First semester students explore the structure of matter, states of matter, atoms, periodic table, chemical reactions, solutions, acids, bases, and nuclear chemistry.
Continuation of SC46. Second semester students examine motion, forces, work, energy, heat, temperature, waves, sound, light, electricity, and magnetism
Students develop a deeper computational understanding approach to chemistry. First semester students explore the structure of matter, states of matter, atoms, mole concept energy levels, chemical bonding, ionic and covalent compounds, chemical equations, periodic table, chemical reactions, solutions, acids, bases, stoichiometry, and nuclear chemistry.
Continuation of SC40. Second semester students study causes of change, states of matter, gas laws, solutions, chemical equilibrium , acids and bases, kinetics, oxidation/reduction, and nuclear chemistry.
Computational approach to topics in Physics. First Semester students learn motion in one and two directins, vectors, Newton's Laws, work, energy, momentum, circular motion and gravitation.
Continuation of SC50. Second semester explores vibrations, waves, electric forces, electric fields, electrical energy, current, circuits and elements, and magnetism