Lecture: For nonscience majors. Introductory survey of astronomy. How we learn about the Universe and what we already know of it, how it originated, evolves, and its ultimate fate. Emphasis on modern research in solar phenomena, stellar evolution (including white dwarfs, neutron stars, pulsars, and black holes) and galaxy studies (including quasars). 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, an d other interesting astronomical objects. Attendance is required. Gen.Ed.(PS)
This is a course in applied physics with the ultimate goal of describing how stars work. Topics include gravitation, stellar mass determination, stellar structure, stellar atmospheres, stellar evolution, and the physics of pulsating stars. We will approach each of these topics from fundamental concepts and we will work our way to a detailed understanding. On the way we will review the structure of the atom, radiative processes, and some basic principles of thermodynamics.
Basic numerical methods: linear algebra, interpolation and extrapolation, integration, root finding, extremization and differential equations. Introduction to Monte Carlo techniques used to simulate processes that occur in nature and methods to simulate experiments that measure these processes including random number generators, sampling techniques, and multidimensional simulation. Methods for extracting information from experiments such as experimental measurements and uncertainties, confidence intervals, parameter estimation, likelihood methods, least squares method, hypothesis tests, and goodness of fit tests. Chaotic dynamics and other special topics as time permits.
Weekly class exploring the field of astronomy and its practice. Meetings may include observing sessions, projects with University telescopes, laboratory activities, and introductions to the latest topics of astronomical research. Intended primarily for first-year students considering an astronomy major or minor, but open to all undergraduates on a space-available basis.
Devoted each year to a particular topic or current research interest. Prerequisites: At least three semesters of physics, astronomy, or geology. Juniors and seniors only, or per instructors permission. Prerequisites: 2 semesters of physics, 2 semesters of calculus, and an astronomy course at the 200 level or above.
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. Introductory survey of astronomy. How we learn about the Universe and what we already know of it, how it originated, evolves, and its ultimate fate. Emphasis on modern research in solar phenomena, stellar evolution (including white dwarfs, neutron stars, pulsars, and black holes) and galaxy studies (including quasars). 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, an d other interesting astronomical objects. Attendance is required. Gen.Ed.(PS)
Basic weather parameters, light and energy in the atmosphere. Topics include: atmospheric gases and their behavior; instability of the atmosphere; winds and their origin: large scale, small scale. Moisture: evaporation, condensation, clouds. Kinds of precipitation. Storms: hurricanes, thunderstorms, tornadoes. Atmospheric optics: rainbows, halos, mirages. Climate and climate change. (Gen.Ed. PS)
Introductory course for physical science majors. Topics include planetary orbits, rotation and precession; gravitational and tidal interactions; interiors and atmospheres of the Jovian and terrestrial planets; surfaces of the terrestrial planets and satellites; asteroids, comets, planetary rings; origin and evolution of the planets. Prerequisites: 1 semester of calculus and 1 semester of a physical science.