This is an introductory physics course with an emphasis on life science applications. Calculus will be used primarily for motivation of concepts and will be introduced as necessary. Topics include motion, dynamics, and force laws, conservation of momentum and energy, fluids, and thermodynamics.
This is an introductory physics course with an emphasis on life science applications. Calculus will be used primarily for motivation of concepts and be developed in the course as necessary. Topics include electricity, magnetism, waves, optics, light, imaging, special relativity, atomic and nuclear physics.
Major topics include mechanics and thermodynamics. Vectors and calculus are used. Laboratory work is mainly an introduction to experimental techniques including the use of a computer.
Major topics include electricity, magnetism, optics and introductory atomic and nuclear physics. Extensive use of vectors and calculus. Laboratory work mainly emphasizes concepts and techniques.
This course is designed to provide students with an introduction to the organization and architecture of digital computer systems. Topics include number systems, binary arithmetic, Boolean algebra, combinatorial and sequential logic circuits, and computer system components and their interrelationships. This course consists of both a lecture and a lab portion of hands-on hardware manipulation.
Students gain experience with basic laboratory instrumentation and techniques, written and oral technical communication, and literature searching.
Selected topics offered on sufficient demand. Topics include partifcle physics, atomic and molecular physics, acoustics, biophysics, and solid state physics.
Independent study of topics approved by department.