Off-Campus Extended Studies Courses
Faculty-led domestic and international study and service courses that provide students opportunities to explore and experience other cultures, learn in new environments, develop skills not readily acquired elsewhere, and deepen their understanding of the global community. Curricular offerings earn .5 course credit and count toward satisfying the Extended Studies requirement; co-curricular offerings do not carry academic credit but do count toward the Extended Studies requirement.
Physics and Astronomy
Physics is the study of the fundamental nature of everything. Through experiment and theory physicists seek to explain the interactions of matter and energy in terms of a small number of basic laws. Physics deals with everything from the very large (e.g. the structure of the universe) to the very small (e.g. atoms, nuclei, quarks and even smaller structures). The devices we depend on in our technological society are based on fundamental principles of physics. Both experimental and theoretical physicists are people who enjoy understanding how things work. Studying physics develops excellent critical thinking and problem solving skills, which are applicable to many careers. Many of our physics graduates continue with graduate school in physics, astronomy or engineering. Others continue with professional training in medical school or law school. However, it is not necessary to pursue more education to have a rewarding career with physics. An undergraduate physics degree is a spring board to a broad spectrum of career options, including engineering, systems analyst, financial analyst, management, national security, medical research, education and journalism. Nationally, employment opportunities for physics graduates have been especially good in recent years. The department offers a major and a minor in Physics. Students planning to major in Physics should consult with a member of the department as early as possible in their college careers. Incoming students who plan to major in Physics should take PHYS 120-130 and MATH 135-136 or MATH 151 in the first year. Most pre-engineering students must take PHYS 120, 130, and 350. Students interested in pre-engineering should consult with a pre-engineering advisor as early as possible. The physics major is also appropriate for students who wish to attend graduate school in astronomy.
Requirements for a major
Physics
Total courses required | Nine |
---|---|
Core courses | PHYS 120, PHYS 130, PHYS 210, PHYS 220, PHYS 280 (1/2 course), PHYS 480 (1/2 course) |
Other required courses |
|
Number 300 and 400 level courses | Three and one-half |
Senior requirement and capstone experience | All senior physics majors must complete PHYS 480, Senior Seminar. This course is designed to allow students to read, interpret, and discuss primary literature from current physics research. It follows a format similar to journal clubs that are found in many physics graduate school programs. The specific topics and content vary from year to year. Students utilize the knowledge base that they have developed during their previous coursework to understand the foundational principles of the contemporary research topic. Majors who want to conduct their own independent research investigations may do so by enrolling in an independent study project under PHYS 390. These projects usually involve the student working with a department faculty member on a topic of mutual interest. The projects often produce research posters or papers that are shared with the larger community. |
Additional information | MATH 151 (or MATH 135-136) and MATH 152 required |
Writing in the Major | Students majoring in physics will hone their writing skills in the following courses: Phys 220, Principles of Physics III, Phys 280, Experimental Methods, Phys 370, Introduction to Atomic and Molecular Physics, and Phys 480, Senior Seminar. Since writing is a critical skill for all physics majors it is essential that students learn how to express their knowledge of the field through written works in the form of reports, and publications. This requires the ability to document their work in the laboratory, providing explicit details about their work that will allow others to understand the reasons chosen to conduct an investigation, what steps were carried out in the investigation, how it was done, results obtained, and conclusions that were drawn from those results. In addition, there will be many occasions where students will be required to explain the subtleties and importance of physical phenomena and events to people who are not physicists. |
Requirements for a minor
Astronomy
Total courses required | Four |
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Core courses | PHYS 104 or PHYS 320 and either PHYS 300 or PHYS 310. |
Other required courses | Two additional from: PHYS 103, PHYS 104, PHYS 203, PHYS 310, PHYS 320, PHYS 330, PHYS 300. |
Number 300 and 400 level courses | One |
Physics
Total courses required | Five |
---|---|
Core courses | PHYS 120, PHYS 130, PHYS 210, PHYS 220. |
Other required courses | PHYS 310 may not count toward the minor. One of the following: PHYS 320, PHYS 340, PHYS 350, PHYS 360, PHYS 370, PHYS 380, PHYS 410, PHYS 420, PHYS 430, PHYS 440. |
Number 300 and 400 level courses | One |
Courses in Physics and Astronomy
PHYS 103Moons and Planets
Includes laboratory. An introductory course concentrating on the solar system. Topics to be covered include: observational astronomy; the history and development of astronomy; Kepler's laws of planetary motion; Newton's laws of motion and gravity; the Earth-moon system; the structure and composition of the planets with an emphasis on comparative planetology; asteroids, comets, the formation of the solar system, the sun and the exploration of space. Emphasis is placed on investigating the methods by which astronomers gain knowledge about the solar system. Evening laboratory periods will emphasize observation and will help students develop quantitative skills in interpreting data. PHYS 103 and PHYS 104 may be taken in either order. Prerequisite: high school algebra and trigonometry.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | High school algebra and trigonometry | 1 course |
PHYS 104
Stars and Galaxies
Includes laboratory. An introductory course concentrating on the astronomy of stars and stellar systems. Topics to be covered include: properties of stars; stellar evolution; white dwarfs, neutron stars and black holes; the interstellar medium; the Milky Way; galaxies; Hubble's Law; and cosmology. Emphasis is placed on investigating the methods by which astronomers gain knowledge about the universe. Evening laboratory periods will emphasize observation and will help students develop quantitative skills in interpreting data. PHYS 103 and PHYS 104 may be taken in either order. Not open to students with credit in PHYS 320. Prerequisite: high school algebra and trigonometry.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | High school algebra and trigonometry | 1 course |
PHYS 110
Physics and Society
Includes laboratory. The fundamental concepts of classical and modern physics presented with particular attention to their application to questions of importance to members of technological society (such as energy and energy policy). Topics may include Newtonian mechanics, special and general relativity, quantum and nuclear physics and modern cosmology. This course does not fulfill the prerequisites for advanced courses in physics, nor the requirements for medicine, engineering or secondary teaching. Prerequisite: high school algebra and trigonometry.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | High school algebra and trigonometry | 1 course |
PHYS 120
Principles of Physics I
Includes laboratory. An introductory calculus-based course covering fundamental concepts of physics including: momentum, energy, conservation laws, particle interactions, Newton's laws, oscillations, orbits and planetary motion. Laboratory sessions will provide a hands-on opportunity to explore the concepts of physics. This course is designed for students majoring in the sciences and mathematics and those in pre-professional programs in health sciences, medicine, engineering and teaching. Prerequisite or co-requisite: MATH 136
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | MATH 136 or MATH 151. May be taken in the same semester as PHYS 120. | 1 course |
PHYS 130
Principles of Physics II
Includes laboratory. This course builds on PHYS 120 and covers fundamental concepts of physics including: electric and magnetic fields, circuits, Maxwell's equations, electromagnetic waves, waves, interference and diffraction. Laboratory sessions will provide a hands on opportunity to explore the concepts of physics. This course is designed for students majoring in the sciences and mathematics and those in pre-professional programs in health sciences, medicine, engineering and teaching. Prerequisite: PHYS 120 and MATH 151 or MATH 136
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | PHYS 120 and MATH 151 or MATH 136 | 1 course |
PHYS 156
Advanced Placement in Physics
Advanced placement credit for physics. A. Mechanics B. Electricity and Magnetism.
Distribution Area | Prerequisites | Credits |
---|---|---|
1 course |
PHYS 190
Topics
A. Astronomy. P. Physics. Selected topics in astronomy or physics. May be an independent study project. Prerequisites: Depends on the topic. May include a laboratory, depending on the topic. The course may be repeated for credit with different topics.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | Depends on the topic | 1 course |
PHYS 203
Cosmology
An examination of fundamental questions about the origin of the Universe, its evolution, and its ultimate fate. Topics include: what we learn about the universe by studying light, motion and gravity, galaxies and their distribution through space, atoms and nucleosynthesis, the fabric of space-time, the evidence for the Big Bang and the expansion of the Universe, and the current observational work being done to determine the fate of the Universe. This course emphasizes the process of science: how do astronomers and physicists use observation, data, and theory to put together a cohesive picture of the nature of our universe.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | 1 course |
PHYS 210
EM Waves, Relativity & Thermal
This course provides an introduction to fluids, thermal physics, electromagnetic waves and special relativity. It continues the coverage of fundamental physics begun in PHYS 120 and PHYS 130. Topics to be covered include the laws of thermodynamics, Maxwell's equations, and Einstein's theory of special relativity. Includes laboratory Prerequisite: PHYS 130. Pre- or Co-requisite: MATH 152
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, Pre- or Co-requisite MATH 152 | 1 course |
PHYS 220
Principles of Physics III
This course provides an introduction to relativity, thermodynamics, statistical and quantum mechanics, and completes the survey of fundamental physics begun in PHYS 120 and 130. Topics to be covered include special relativity, wave packets, the Schrodinger equation, solutions to the Schrodinger equation for one dimensional potentials, the hydrogen atom, multi electron atoms, quantum statistics, and an introduction to the physics of molecules, solids, nuclei, and particles. Prerequisite: PHYS 130, Pre- or Co-requisite MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, Pre- or Co-requisite MATH 152 | 1 course |
PHYS 231
Statics
This is a core course in mechanical and civil engineering and related fields. The course will develop mathematical methods for analysis of force systems for rigid bodies, including equilibrium requirements, stresses in frames and trusses, forces in beams and cables, friction, centroids and moments of inertia. Students will present case studies of engineering disasters and the impact of these disasters on subsequent projects of a similar nature.Prerequisite: PHYS 120 and MATH 151.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 120 and MATH 151 | 1/2 course |
PHYS 240
Electronics
Includes laboratory. Experimental and theoretical treatment of direct current and alternating current circuits. Topics include: diode applications, transistors, operational amplifiers, feedback, analog-digital conversion, digital logic and microprocessors. Prerequisite: One semester of a laboratory science course.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | One semester of a laboratory science course. | 1 course |
PHYS 250
Optics
Includes laboratory. Experimental investigation of geometrical and physical optics. Specific topics investigated include: image formation by lenses and mirrors, optical instruments, image processing, interference, diffraction, polarization, optical communication, lasers and holography. Prerequisite: One semester of a laboratory science course.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | One semester of a laboratory science course. | 1 course |
PHYS 251
Dynamics (formerly PHYS 351)
A theoretical treatment of the physical laws governing the motion of particles and rigid bodies, including studies of energy and momentum, kinematics, curvilinear motion and central forces. Prerequisite: PHYS 120 and MATH 151.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 120 and MATH 151 | 1/2 course |
PHYS 270
Mathematical Methods
Methods in applied mathematics for students in physical sciences and engineering. Topics include: partial differentiation, vector analysis, complex numbers, linear algebra, ordinary differential equations, multiple integrals, and Fourier series. Prerequisite: PHYS 120 and MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 120 and MATH 152 | 1 course |
PHYS 280
Experimental Methods
Includes laboratory. An introduction to the techniques, methods and necessary skills used in experimental physics. Data will be collected by using a variety of instruments, including oscilloscopes, nuclear instrumentation, and other data sensors. The course will introduce a variety of statistical and data analysis techniques. Machine shop skills will be developed during the course. Prerequisite: PHYS 120.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 120 | 1/2 course |
PHYS 290
Topics
A. Astronomy. P. Physics. Selected topics in astronomy or physics. May be an independent study project. Prerequisite: depends on the topic.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | Depends on the topic | 1 course |
PHYS 300
Historical Astronomy
This course explores the development of mankind's understanding of the universe. We will follow the development of astronomical thinking from ancient cultures to the time of Newton. This course places emphasis on the tools, techniques and discoveries relevant to the development of astronomy. Topics include calendars, sundials (we'll spend some time making some of our own), astrolabes (we'll also make some of these), lunar and solar eclipses, the use of a quadrant and a horologium nocturnum, precession of the equinoxes and the Ptolemaic and Copernican planetary models. There is an accompanying evening lab for the course which will often involve observing the sky. The only prerequisite is high school algebra and trigonometry.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | High school algebra and trigonometry | 1 |
PHYS 310
Observational Astronomy
Includes Laboratory. The overall goal of this course is to develop the skills needed to become knowledgeable life-long observers of the night sky. It includes the study and understanding of celestial coordinate systems, motions of the Sun and stars, seasons, phases of the moon, motion of the planets, systems of time keeping, and similar phenomena. The course teaches the skills necessary to observe objects our Solar system (the Moon, the planets, the Sun, comets, and asteroids), and well as objects outside of our solar system (stars, galactic nebulae and external galaxies) through observing with the naked eye, binoculars and telescopes. It includes the use of astronomical reference tools such as star charts and planetarium software. Digital recording of astronomical observations through astrophotography and CCD imaging will be covered.
Distribution Area | Prerequisites | Credits |
---|---|---|
1 course |
PHYS 320
Astrophysics I
In astrophysics the concepts of classical and modern physics are applied to the study of astronomy, providing a physical basis for understanding the components and structure of our universe. The focus of Astrophysics I is stars. Topics to be covered include: spectroscopy, stellar classification, stellar properties, binary stars, stellar structure, stellar evolution, and the end states of stars (white dwarfs, neutron stars, and black holes). Prerequisite: PHYS 130, one of PHYS 210 or 220, MATH 152
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, one of PHYS 210 or 220, MATH 152 | 1 course |
PHYS 330
Astrophysics II
In astrophysics the concepts of classical and modern physics are applied to the study of astronomy, providing a physical basis for understanding the components and structure of our universe. Topics covered in Astrophysics II include: the Milky Way, galaxies and galactic structure, active galactic nuclei, high energy phenomena, dark matter, and an introduction to cosmology. Prerequisite: PHYS 130 and either PHYS 104 or 320 and either PHYS 210 or 220, and MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130 and either PHYS 104 or 320 and either PHYS 210 or 220, and MATH 152. | 1 course |
PHYS 340
Biophysics
In biophysics we apply fundamental physics concepts, such as force and energy, along with statistical analysis, to describe and understand the form and function of living systems. In this class we will focus our attention on the physics of cells and subcellular molecules. Along with a review of forces, energy and entropy, we will explore topics such as molecular diffusion, osmotic pressure, micelles and membranes, enzyme kinetics, protein motors, and nerve impulses. Pre-requisites: PHYS 130 and one of PHYS 210 or PHYS 220, MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, and one of PHYS 210 or 220, MATH 152 | 1 course |
PHYS 350
Lasers
Introduction to lasers, their operating principles, design and applications. Prerequisite: PHYS 130 and MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
Science and Mathematics | PHYS 130 and MATH 152 | 1 course |
PHYS 360
Gravitation and Cosmology
This is a course about gravity: its description as spacetime curvature, its effect on the motion of bodies, and its role in shaping the evolution of the universe. The first part of the course is devoted to a discussion of the main features of General Relativity, with an emphasis on the behavior of light and matter in the vicinity of black holes. Part two of the course constitutes an introduction to Big Bang cosmology. Topics covered include the physics of the early universe, the cosmic microwave background, the evidence for dark matter and dark energy, and inflation. Prerequisites: PHYS 130, one of PHYS 210 or 220, MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, one of PHYS 210 or 220, MATH 152 | 1 course |
PHYS 370
Atomic and Molecular Physics
Includes laboratory. A theoretical and experimental investigation in atomic, molecular and condensed matter physics. Topics to be covered may include: atomic models, magnetic dipole moments, multielectron atoms, x-ray excitations, optical excitations, atomic spectroscopy, quantum statistic, molecules, molecular bonding, molecular spectra, band theory of solids, conductors, semiconductors, superconductors, and collective phenomena. Prerequisite: PHYS 220 and PHYS 280, MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 220 and PHYS 280, MATH 152 | 1 course |
PHYS 380
Nuclear and Particle Physics
Includes laboratory. A theoretical and experimental investigation in nuclear and particle physics. Topics to be covered may include: nuclear phenomenology, nuclear models, radiation, nuclear reactions, experimental methods in nuclear physics, particle interactions and detection, properties of elementary particle, symmetries, the standard model, and theories beyond the standard model. Prerequisite: PHYS 220 and PHYS 280, MATH 152
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 220 and PHYS 280, MATH 152 | 1 course |
PHYS 390
Topics
A. Astronomy. P. Physics. Selected topics in astronomy or physics. May be an independent study project. Prerequisite: depends on the topic.
Distribution Area | Prerequisites | Credits |
---|---|---|
Depends on the topic. | 1/4-1/2-1 course |
PHYS 410
Thermal Physics
Treatment of the laws of thermodynamics and the concepts of temperature, pressure, entropy, chemical potential and free energy as related to the quantum statistical behavior of microscopic systems. Included are applications to kinetic theory of gases, heat engines, photons and phonons, systems in magnetic and electric fields, transport phenomena, and biological and engineering problems. Prerequisite: PHYS 130, PHYS 210, MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, PHYS 210, MATH 152 | 1 course |
PHYS 420
Classical Mechanics
Basic definitions and principles of classical mechanics, conservation laws, systems of particles and motion of rigid bodies, oscillating phenomena and an introduction to generalized coordinates and the methods of Lagrange and Hamilton. Prerequisite: PHYS 120, one of PHYS 210 or 220, MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 120, one of PHYS 210 or 220, MATH 152 | 1 course |
PHYS 430
Electricity and Magnetism
Theoretical investigation of electrostatics and magnetostatics, both in vacuum and in the presence of matter. Further topics include the Maxwell equations and electromagnetic waves. Prerequisite: PHYS 130, PHYS 210, MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, PHYS 210, MATH 152 | 1 course |
PHYS 440
Quantum Mechanics
Non-relativistic wave mechanical treatment of physical systems. Definition and interpretation of state functions; construction of wave packets; solutions of the Schrodinger equation for simple one-dimensional systems; the hydrogen atom; various approximation methods, including perturbation theory. Prerequisite: PHYS 130, PHYS 220 and MATH 152.
Distribution Area | Prerequisites | Credits |
---|---|---|
PHYS 130, PHYS 220 and MATH 152 | 1 course |
PHYS 480
Senior Seminar
Individual presentations and group discussions cover a wide range of topics. Prerequisite: A senior physics major or permission of instructor. Required of all physics majors.
Distribution Area | Prerequisites | Credits |
---|---|---|
Senior major or permission of instructor | 1/2 course |