Physics Courses

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PHYS 1 / Introductory Physics I (4) - view
PHYS 1 offers topics in mechanics: motion, Newton's laws, energy, conservation laws, collisions, gravitation, fluid behavior, oscillations, and waves. Thermodynamics. This is a non-calculus based course. Note that PHYS 1 does not satisfy the prerequisites for upper-level physics courses; students who are or might be interested in further physics courses should take PHYS 11 and 12 instead. Meets: Three hours lecture, one hour recitation, three hours laboratory. Corequisite: PHYS 3L. Offered fall semester. Fulfills: BNS Q
PHYS 2 / Introductory Physics II (4) - view
PHYS 2 includes electricity, magnetism, and electrical circuits. Light and optics: lenses, diffraction and interference of light. Introductory topics in modern physics. This is a non-calculus based course. Note that PHYS 2 does not satisfy the prerequisites for upper-level physics courses; students who are or might be interested in further physics courses should take PHYS 11 and 12 instead. Meets: Three hours lecture, one hour recitation, three hours laboratory. Prerequisite: PHYS 1 or equivalent. Corequisite: PHYS 4L. Offered spring semester.
PHYS 3L / General Physics Laboratory I () - view
The laboratory correlated with PHYS 1 and 11. Topics in mechanics, heat, and waves. This laboratory work is considered as one component (25%) of the total grade earned in either PHYS 1 or 11. Meets: Three hours laboratory. Corequisite: PHYS 1 or 11. Offered fall semester.
PHYS 4L / General Physics Laboratory II () - view
The laboratory correlated with PHYS 2 and 12. Topics in electricity and magnetism, optics, and elements of atomic and nuclear physics. This laboratory work is considered as one component (25%) of the total grade earned in either PHYS 2 or 12. Meets: Three hours laboratory. Corequisite: PHYS 2 or 12. Offered spring semester.
PHYS 5 / Introdcutory Astronomy I-The Solar System (4) - view
An introduction to the astronomy of the solar system. The first part of the course will focus on some foundational material. This introductory material includes the celestial sphere, apparent motion of objects in the sky, angular and distance measurements, the electromagnetic spectrum, spectroscopy, and telescopes. We will then go on to discuss the overall scale and structure of the solar system as well as the properties of the planets and major non-planetary components of the solar system, including asteroids, comets, meteoroids, and interplanetary dust. This course includes quantitative reasoning and problem solving, which requires a willingness to use simple algebra. In addition, there will be an observational component using Drew's telescopes. Offered spring semester in odd-numbered years.
PHYS 6 / Introductory Astronomy II-Stars, Galaxies, and the Cosmos (4) - view
An observational and theoretical investigation of the components of the universe, including the structure and evolution of stars and galaxies; how black holes and quasars fit into current cosmological models; determination of the size and fate of the universe, and the probability of life as we know it outside of our Earth. Observatory sessions are offered as part of the course. Offered even semesters in even-number years.
PHYS 7 / How Things Work (4) - view
Primarily for non-science majors, the course is a practical introduction to the physics of everyday life, focusing on the operation of objects in our daily environment. Potential objects for study include the roller coaster, musical instruments, automobile, television, laser, and nuclear reactor. Exploration of these devices leads to a conceptual understanding of general physics principles. Meets: Four hours class. Offered fall semester. Fulfills: BNS
PHYS 11 / University Physics I (4) - view
PHYS 11 is the normal introductory physics courses recommended for all science majors; also recommended for other students interested in physics. Because many students take calculus and PHYS 11 in the same semester, calculus is introduced gradually and discussed as needed. Offers topics in mechanics: motion, Newton's laws, energy, conservation laws, collisions, gravitation, oscillations, and waves. Thermodynamics. Meets: Three hours lecture, one hour recitation, three hours laboratory. Corequisite: PHYS 3L. Corequisite or Prerequisite: Calculus (MATH 7, or equivalent) Offered fall semester. Fulfills: BNS Q
PHYS 12 / University Physics II (4) - view
PHYS 12 is the normal introductory physics courses recommended for all science majors; also recommended for other students interested in physics. Includes electricity, magnetism, and electrical circuits. Light and optics: lenses, mirrors, diffraction and interference of light. Meets: Three hours lecture, one hour recitation, three hours laboratory. Prerequisite: PHYS 11 or equivalent. MATH 8 or equivalent. Corequisite: PHYS 4L Corequisite or Prerequisite: Prerequisite or corequisite; MATH 8, or equivalent. Offered spring semester.
PHYS 14 / Electronics (4) - view
A laboratory course introducing electronic and instrumental techniques important in modern scientific experimentation. Includes DC and AC circuits, test instruments, power supplies, transducers, operational amplifiers, basic digital devices, and circuit simulation with computers. Extensive use of integrated circuits with strong emphasis on applications. Intended to provide background for advanced laboratory work in the sciences. Meets: Two hours lecture, six hours laboratory. Prerequisite: PHYS 12 and MATH 8 . Offered fall semester in odd-numbered years.
PHYS 103 / Modern Physics (4) - view
A descriptive and mathematical introduction to topics in contemporary physics. Topics include special relativity, early quantum theory, the Schroedinger equation and its applications, and additional selected topics from general relativity, atomic, nuclear, solid state, and elementary particle physics. Meets: Four hours lecture. Prerequisite: PHYS 11, 12 and MATH 8. Offered fall semester. Same as: MAT 848.
PHYS 105 / Electrodynamics (4) - view
A classical treatment of electrodynamics in vacuum and matter. Electrostatic and magnetostatic fields. Maxwell's equations. Electromagnetic waves in conductors and non-conducting media. An introduction to the mathematics of vector calculus. Meets: Four hours lecture. Prerequisite: PHYS 11, 12, and MATH 17. Offered fall semester in odd-numbered years.
PHYS 107 / Mechanics (4) - view
A study of Newton's laws applied to the motion of particles and systems of particles. Forced and damped harmonic oscillators. Central-field motion, collisions, conservation laws, Lagrangian mechanics, and Hamilton's equations. Also rigid body dynamics and topics in computational physics. Meets: Four hours lecture. Prerequisite: PHYS 11, 12, and MATH 17. Offered spring semester in odd-numbered years.
PHYS 109 / Optics (4) - view
A study of the wave equation, properties of wave motion, and electromagnetic waves. The propagation of light, dispersion, and absorption. Geometrical optics, lenses, optical systems. Superposition, interference, and Fraunhofer and Fresnel diffraction. Topics in modern optics. Meets: Four hours lecture. Prerequisite: PHYS 11, 12, and MATH 17. Offered spring semester in even-numbered years.
PHYS 110 / Thermal Physics (4) - view
A study of the fundamental concepts of classical thermodynamics and the thermal behavior of gases, liquids, and solids. The kinetic theory of gases. Statistical thermodynamics, including Maxwell-Boltzmann, Bose-Einstein, and Fermi-Dirac statistics. Applications to an ideal diatomic gas, electrons in metals and monatomic crystals. Connection between statistical thermodynamics and information theory. Meets: Four hours lecture. Prerequisite: PHYS 11, 12, and MATH 17. Offered fall semester in even-numbered years.
PHYS 111 / Computational Modeling of Neural Systems (4) - view
Computational neuroscience is the study of the brain as a computational and information-processing organ. It is a highly interdisciplinary field that employs various ideas and techniques from physics, biology, chemistry, mathematics, computer science, psychology, and (of course) neuroscience. In this course, we cover the following topics: biophysics of a single neuron; dynamics of neural networks; models of associative memory and object recognition; and numerical methods and tools for analyzing and simulating a dynamical system. We study the fundamental biophysical properties and processes of the neurons and their networks, while also learning to use several analytical and numerical methods for studying a complex dynamical system. The goal of the course is to develop an interdisciplinary approach for analyzing a biological system. Prerequisite: PHYS 11, MATH 7. Corequisite: PHYS 12, MATH 8. Same as: NEURO 111.
PHYS 120 / Quantum Mechanics (4) - view
A study of the formalism and applications of quantum theory. Wave mechanics, interpretation of the quantum wave function, one-dimensional bound states, scattering and tunneling. Quantum mechanics in three dimensions. Two-particle systems, bosons and fermions, exchange forces. Approximation methods. Applications to atomic and molecular configurations. Meets: Four hours lecture. Prerequisite: PHYS 11, 12, and MATH 104. Offered spring semester in odd-numbered years.
PHYS 123 / Advanced Physics Laboratory I (4) - view
Experimental physics at an advanced undergraduate level. Includes working in an increasingly independent format on a series of selected projects from a variety of physics areas. Lectures and laboratory work give specific attention to experimental design, laboratory techniques, computer data acquisition and analysis, and error propagation and analysis. Also serves as preparation for possible subsequent experimental research such as might be undertaken in PHYS 135. Meets: One hour lecture, six hours laboratory. Prerequisite: PHYS 11, 12, 14, 103 and MATH 17. Offered spring semester in even-numbered years.
PHYS 124 / Advanced Physics Laboratory II (4) - view
Experimental physics at an advanced undergraduate level. Includes working in an increasingly independent format on a series of selected projects from a variety of physics areas. Lectures and laboratory work give specific attention to experimental design, laboratory techniques, computer data acquisition and analysis, and error propagation and analysis. Also serves as preparation for possible subsequent experimental research such as might be undertaken in PHYS 135. Meets: One hour lecture, six hours laboratory. Prerequisite: PHYS 123. Offered fall semester in even-numbered years.
PHYS 125 / Mathematical Physics (4) - view
An introduction to methods used in solving problems in physics and other sciences. Calculus of variations and extremum principles. Orthogonal functions and Sturm-Liouville problems. Fourier series. Series solutions of differential equations. The partial differential equations of physics. Transform and Green's function methods of solution. Nonlinear equations and chaos theory. Meets: Four hours lecture. Prerequisite: PHYS 11 or permission of instructor; and MATH 104. Offered fall semester. Same as: MATH 125.
PHYS 129 / Special Topics in Physics (4) - view
Topics chosen on the basis of instructor and student interest from areas such as condensed matter, atomic physics, particle physics; astrophysics, nonlinear phenomena, laser physics, and relativity. Course may be repeated. Meets: Four hours lecture. Signature of instructor required for registration. Offering to be determined.
PHYS 135 / Independent Study/Research in Physics (2-4) - view
An opportunity for independent work by upper-class students. Individual projects in experimental, theoretical, or computational physics selected in advance of registration and after conferral with and approval by the instructor. Available projects are often related to faculty research interests or to the development of course-support materials, such as new laboratory experiments. Amount of credit established at time of registration. May be repeated for at most eight credits. Signature of instructor required for registration. Prerequisite: Permission of instructor and the department. Offered every semester.
PHYS 190 / Physics Seminar (2) - view
A junior-senior seminar meeting weekly to discuss current and/or historical topics in physics. Oral presentations by students on selected readings from such areas as experimental or theoretical research, government science policy, pseudoscience, and physics education. Meets: Two hours seminar. Prerequisite: Physics major with junior or senior standing, or permission of instructor. Offered spring semester in odd-numbered years.