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Analysis and review of the entire light-frame construction process, from regulation and design through site preparation, project management, and ultimate delivery of a completed structure.

Energy conservation in contemporary residential construction. Emphasis on: energy efficient building materials, products and construction technology; alternative energy sources; passive solar design; environmental concerns, regulatory issues and building codes.

An introduction to building energy use focusing on the minimization of energy costs and dependence on non-renewable fossil fuel sources through the implementation both time honored passive design strategies and effective building envelope construction practices. The course also introduces students to the fundamentals of building system loads and building annual energy consumption calculations providing the necessary metricized evaluation of a building's energy and associated climate impacts in relation to other buildings of similar types and program in similar climates.

Dynamic and gravitational principles applied to astrophysics. Potential theory, orbital mechanics, virial theorem, Jeans' equations, equilibrium and stability of self-gravitating systems, kinetic theory. Applications to galactic structure and evolution, mergers, dark matter, evolution of star clusters and galactic nuclei and solar system dynamics.

Dynamic and gravitational principles applied to astrophysics. Potential theory, orbital mechanics, virial theorem, Jeans' equations, equilibrium and stability of self-gravitating systems, kinetic theory. Applications to galactic structure and evolution, mergers, dark matter, evolution of star clusters and galactic nuclei and solar system dynamics.

Describes the gas and dust components of the interstellar medium in ionized regions, atomic clouds, and molecular clouds. Shows how data from optical, infrared, and radio wavelengths can be utilized to determine density, temperature, composition, and dynamics of the various phases of the ISM. Comparison of these results with theoretical models. Includes an overview of the processes that affect the evolution of the ISM including the incorporation of gas and dust into stars, the effect of HII regions and young stellar objects, and the return of matter from evolved stars and supernovae.

Lecture: For nonscience majors. Introduction to the physical characteristics of the earth, moon, planets, asteroids and comets, their motions and gravitational interactions. Recent discoveries of space probes relative to formation of the solar system and origin of life.

Lab: Multiple sections. For nonscience students. Introduction to the night sky, telescopes, astronomical events, and celestial maps. Visual and telescopic observations of the constellations, moon, planets, stars, and other interesting astronomical objects. Attendance required.(Gen.Ed. PS)

Lecture: For nonscience majors. Introduction to the physical characteristics of the earth, moon, planets, asteroids and comets, their motions and gravitational interactions. Recent discoveries of space probes relative to formation of the solar system and origin of life.

Lab: Multiple sections. For nonscience students. Introduction to the night sky, telescopes, astronomical events, and celestial maps. Visual and telescopic observations of the constellations, moon, planets, stars, and other interesting astronomical objects. Attendance required.(Gen.Ed. PS)

Lecture: For nonscience majors. Introduction to the physical characteristics of the earth, moon, planets, asteroids and comets, their motions and gravitational interactions. Recent discoveries of space probes relative to formation of the solar system and origin of life.

Lab: Multiple sections. For nonscience students. Introduction to the night sky, telescopes, astronomical events, and celestial maps. Visual and telescopic observations of the constellations, moon, planets, stars, and other interesting astronomical objects. Attendance required.(Gen.Ed. PS)