Courses
2023 - 2024
For this academic year's course catalog, please visit our Academic Catalog site. For courses currently offered, please refer to the Schedule of Classes.
Designed principally for students not contemplating a major in the sciences, but who nevertheless wish to develop their ability to figure things out about the physical world for themselves. Recently, the course has focused on the physics of societal concerns such as energy and the environment. The laboratory, an integral part of the course, will serve to introduce the student to the observation, measurement, and analysis of phenomena directly related to topics studied in the course. Open to seniors by consent only. Mathematical preparation is assumed to include high school algebra and geometry.
This calculus-based course is designed to provide a thorough quantitative coverage of the foundations and concepts of physics and its approach toward an understanding of natural phenomena. Newtonian mechanics and dynamics, fluids, and thermal physics are covered. Three lectures and one three-hour laboratory each week.
Prerequisite(s): MATH?130 or MATH?135 or MATH?145 or concurrent.
This calculus-based course is designed to provide a thorough quantitative coverage of the foundations and concepts of physics and its approach toward an understanding of natural phenomena. The course includes electricity and magnetism, optics and waves. Three lectures and one three-hour laboratory each week.
Prerequisite(s): PHYS?121.
Physics/Astronomy 125 will introduce students to topics that are at the current frontiers of physics and astronomy, and help students develop quantitative reasoning and analytical skills necessary for further study in these fields. Topics possibly covered include special relativity, waves and interference, quantization of light and energy, the hydrogen atom, nuclear structure, radioactivity, and cosmology. The course satisfies the quantitative reasoning requirement. Three lectures and one three-hour laboratory per week.
Prerequisite(s): MATH?130 or MATH?135 or MATH?145 or concurrent.
Crosslisting: ASTR?125.
This course is designed to provide a thorough quantitative understanding of the principles of physics and its approach toward investigating natural phenomena and the universe around us. This calculus-based sequence is primarily designed for those interested in physics, astronomy and pre-engineering. This course satisfies the quantitative reasoning requirement and is also appropriate for those majoring in other physical sciences (see also Physics 121-122). Topics include Newtonian mechanics, vibrations, fluids, and thermal physics. Three lectures and one three-hour laboratory each week.
Prerequisite(s): PHYS?125, MATH?135 or MATH?145 or concurrent.
This course is designed to provide a thorough quantitative understanding of the principles of physics and its approach toward investigating natural phenomena and the universe around us. This calculus-based sequence is primarily designed for those interested in physics, astronomy, and pre-engineering. This course is also appropriate for those majoring in other physical sciences. (also see Physics 121-122). Topics include electricity and magnetism, waves and optics. Three lectures and one three-hour laboratory each week.
Prerequisite(s): PHYS?126 and MATH?145 or concurrent.
A general category used only in the evaluation of transfer credit.
A quantitative study of topics in modern physics including relativistic kinematics and dynamics, interactions between light and matter, an introduction to the principles of quantum mechanics, and atomic physics. Additional topics may include solid-state physics, nuclear physics, or other contemporary topics. Analytical techniques are emphasized throughout.
Prerequisite(s): PHYS?122 or PHYS?127, PHYS?201 or concurrent, or consent.
A one-semester overview of mathematics applied to physical systems, with extensive use of examples from introductory and intermediate physics. Topics covered will include operators, functions, vectors, complex numbers, integration, differentiation, geometry, differential equations, and linear algebra. The unity of linear systems will be emphasized, though non-linearity will also be discussed. Both hand- and computer-aided computation will be required.
Prerequisite(s): PHYS?121 or PHYS?126, and MATH?145, or consent.
A study of the laws of reflection and refraction and their applications to lenses and mirrors; and a study of diffraction, interference, polarization, and related phenomena. The course includes a laboratory.
Prerequisite(s): PHYS?122 or PHYS?127.
This course provides a venue in which to explore chosen topics in physics at the intermediate level. Topics vary according to the interests of students and faculty. In some cases, the course may be repeated for credit.
Prerequisite(s): PHYS?121 or PHYS?126 or consent.
A general category used only in the evaluation of transfer credit.
A course in classical mathematical physics designed to provide the student with a basic understanding of the methods and procedures of physical analysis.
Prerequisite(s): PHYS?127, PHYS?201 or MATH?213, or consent.
A course in the theory of electromagnetic interactions, including the sources and descriptions of electric and magnetic fields, Maxwell's equations, and electromagnetic radiation.
Prerequisite(s): PHYS?305 or consent.
A course in digital and analog electronics with an emphasis on circuit design and lab work. Topics typically include binary encoding, combinational and sequential logic, microcontrollers and FPGAs, AC circuits, transistors, op-amps, and interfacing with scientific instruments.
Prerequisite(s): PHYS?122 or PHYS?127 or consent.
A course in the theory and practice of physical research with emphasis on the understanding and use of present-day research instrumentation. May be repeated once for credit as either PHYS?312 or ASTR?312.
Prerequisite(s): PHYS?122 or PHYS?127, PHYS?200 recommended.
Selected topics from thermodynamics, kinetic theory, and statistical methods. This course normally will be offered in alternate years. The course may include a laboratory.
Prerequisite(s): PHYS?200 or consent.
A first course including solutions of the Schroedinger equation for some elementary systems, followed by an introduction to the more abstract methods of quantum mechanics.
Prerequisite(s): PHYS?305, PHYS?201 or MATH?213, or consent.
Independent work on selected topics at the advanced level under the guidance of individual staff members. May be taken for a maximum of four semester hours of credit.
Prerequisite(s): Junior standing and consent of chairperson.
Topics will be chosen according to the interests of the staff member offering the course from such areas as energy, the solid state, laser physics, nuclear physics, biophysics, astrophysics, geophysics and medical physics. The course normally will be offered on demand. May be repeated with consent of chairperson.
Prerequisite(s): PHYS?122 or PHYS?127, or consent.
Prerequisite: Consent of chairperson.
Prerequisite: Consent of chairperson.
A general category used only in the evaluation of transfer credit.
Current topics in physics. May be repeated.
A course extending the work of PHYS?305 to include the more general formulations of classical dynamics and to relate these to modern theoretical physics.
Prerequisite(s): PHYS?305 or consent.
A course extending the work of PHYS?306 to include more general boundary value problems, additional implications of Maxwell's equations, and the wave aspects of electromagnetic radiation, including topics in modern physical optics.
Prerequisite(s): PHYS?306 or consent.
Prerequisite: PHYS?312 or consent of chairperson.
Prerequisite: PHYS?312 or Consent of Chairperson.
This course is designed to provide an understanding of the basic methods used to teach physics. This course is primarily for those majoring in physics, astronomy, and pre-engineering. One-hour laboratory each week.
Prerequisite(s): PHYS?121 and PHYS?122, or PHYS?126.