This page displays the schedule of Bryn Mawr courses in this department for this academic year. It also displays descriptions of courses offered by the department during the last four academic years.

For information about courses offered by other Bryn Mawr departments and programs or about courses offered by Haverford and Swarthmore Colleges, please consult the Course Guides page.

For information about the Academic Calendar, including the dates of first and second quarter courses, please visit the College's master calendar.

Fall 2018

COURSE TITLE SCHEDULE/
UNITS
MEETING TYPE TIMES/DAYS LOCATION INSTR(S)
PHYS B101-001Introductory Physics ISemester / 1Lecture: 10:10 AM-11:00 AM MWFPark 243Schulz,M.
PHYS B101-002Introductory Physics ISemester / 1Lecture: 9:10 AM-10:00 AM MWFPark 243Bahreyni,N.
PHYS B101-003Introductory Physics ISemester / 1Lecture: 12:10 PM- 1:00 PM MWFPark 349Bahreyni,N.
PHYS B101-00AIntroductory Physics ISemester / 1Laboratory: 1:10 PM- 3:00 PM MPark 234Department staff,T., Matlin,M.
PHYS B101-00BIntroductory Physics ISemester / 1Laboratory: 3:40 PM- 5:30 PM MPark 234Department staff,T., Matlin,M.
PHYS B101-00CIntroductory Physics ISemester / 1Laboratory: 1:10 PM- 3:00 PM TPark 234Department staff,T., Matlin,M.
PHYS B101-00DIntroductory Physics ISemester / 1Laboratory: 3:40 PM- 5:30 PM TPark 234Department staff,T., Matlin,M.
PHYS B101-00EIntroductory Physics ISemester / 1Laboratory: 1:10 PM- 3:00 PM WPark 234Department staff,T., Matlin,M.
PHYS B101-00FIntroductory Physics ISemester / 1Laboratory: 1:10 PM- 3:00 PM THPark 234Department staff,T., Matlin,M.
PHYS B101-00ZIntroductory Physics ISemester / 1
PHYS B105-001Design and Making for AllSemester / 1Laboratory: 1:10 PM- 4:00 PM MWPark 264Cheng,X.
PHYS B121-001Modern PhysicsSemester / 1Lecture: 11:10 AM-12:00 PM MWFPark 243Daniel,K.
PHYS B121-00JModern PhysicsSemester / 1Laboratory: 1:10 PM- 4:00 PM THPark 154Cheng,X., Matlin,M.
PHYS B121-00KModern PhysicsSemester / 1Laboratory: 1:10 PM- 4:00 PM FPark 154Bahreyni,N., Matlin,M.
PHYS B121-00ZModern PhysicsSemester / 1
PHYS B201-001ElectromagnetismSemester / 1Lecture: 10:10 AM-11:00 AM MWFPark 337Noel,M.
PHYS B201-00AElectromagnetismSemester / 1Laboratory: 1:10 PM- 4:00 PM TPark 337Noel,M.
PHYS B201-00BElectromagnetismSemester / 1Laboratory: 1:10 PM- 4:00 PM FPark 337Noel,M.
PHYS B201-00ZElectromagnetismSemester / 1
PHYS B303-001Statistical Mechanics and ThermodynamicsSemester / 1Lecture: 9:55 AM-11:15 AM TTHPark 337Matlin,M.
PHYS B306-001Mathematical Methods in the Physical SciencesSemester / 1Lecture: 12:10 PM- 1:00 PM MWFPark 337Matlin,M.
PHYS B328-001Galactic Dynamics & Advanced Classical MechanicsSemester / 1Lecture: 2:10 PM- 4:00 PM WPark 337Daniel,K., Daniel,K.
Lecture: 2:10 PM- 3:00 PM FPark 337
PHYS B398-001Senior SeminarSemester / 0.5Lecture: 1:10 PM- 2:30 PM MPark 337Dept. staff, TBA
PHYS B403-001Supervised ResearchSemester / 1Dept. staff, TBA
PHYS B403-001Supervised ResearchSemester / 1Dept. staff, TBA
PHYS B505-001Classical Mechanics ISemester / 1Lecture: 2:10 PM- 3:00 PM WDaniel,K., Daniel,K.
Lecture: 2:10 PM- 4:00 PM F
PHYS B701-001Supervised WorkSemester / 1Lecture: Date/Time TBACheng,X., Daniel,K., Noel,M., Schaffner,D.
MATH B101-001Calculus ISemester / 1Lecture: 9:10 AM-10:00 AM MWFPark 338Kasius,P.
MATH B101-002Calculus ISemester / 1Lecture: 10:10 AM-11:00 AM MWFPark 338Kasius,P.
MATH B101-003Calculus ISemester / 1Lecture: 11:10 AM-12:00 PM MWFPark 338Sudparid,D.
MATH B102-001Calculus IISemester / 1Lecture: 10:10 AM-11:00 AM MWFPark 245Myers,A.
MATH B102-002Calculus IISemester / 1Lecture: 9:55 AM-11:15 AM TTHPark 338Melvin,P.
MATH B201-001Multivariable CalculusSemester / 1Lecture: 11:10 AM-12:00 PM MWFPark 245Traynor,L.
MATH B201-002Multivariable CalculusSemester / 1Lecture: 12:10 PM- 1:00 PM MWFPark 338Donnay,V.
MATH B201-00AMultivariable CalculusSemester / 1Laboratory: 4:10 AM- 6:00 AM WPark 246Donnay,V., Traynor,L.
MATH B201-00BMultivariable CalculusSemester / 1Laboratory: 2:40 PM- 4:00 PM WPark 246Donnay,V., Traynor,L.
MATH B201-00CMultivariable CalculusSemester / 1Laboratory: 7:10 PM- 8:30 PM THPark 246Donnay,V., Traynor,L.
MATH B201-00DMultivariable CalculusSemester / 1Laboratory: 1:10 PM- 2:30 PM FPark 246Donnay,V., Traynor,L.
MATH B201-00EMultivariable CalculusSemester / 1Laboratory: 2:40 PM- 4:00 PM FPark 246Donnay,V., Traynor,L.
MATH B201-00FMultivariable CalculusSemester / 1Laboratory: 7:10 PM- 8:30 PM TPark 246Donnay,V., Traynor,L.

Spring 2019

COURSE TITLE SCHEDULE/
UNITS
MEETING TYPE TIMES/DAYS LOCATION INSTR(S)
PHYS B102-001Introductory Physics IISemester / 1Lecture: 10:10 AM-11:00 AM MWFDaniel,K.
PHYS B102-002Introductory Physics IISemester / 1Lecture: 9:10 AM-10:00 AM MWFBahreyni,N.
PHYS B102-003Introductory Physics IISemester / 1Lecture: 12:10 PM- 1:00 PM MWFBahreyni,N.
PHYS B102-00AIntroductory Physics IISemester / 1Laboratory: 1:10 AM- 3:00 AM MDepartment staff,T., Matlin,M.
PHYS B102-00BIntroductory Physics IISemester / 1Laboratory: 3:40 PM- 5:30 PM MDepartment staff,T., Matlin,M.
PHYS B102-00CIntroductory Physics IISemester / 1Laboratory: 1:10 PM- 3:00 PM TDepartment staff,T., Matlin,M.
PHYS B102-00DIntroductory Physics IISemester / 1Laboratory: 3:40 PM- 5:30 PM TDepartment staff,T., Matlin,M.
PHYS B102-00EIntroductory Physics IISemester / 1Laboratory: 1:10 PM- 3:00 PM WDepartment staff,T., Matlin,M.
PHYS B102-00FIntroductory Physics IISemester / 1Laboratory: 1:10 PM- 3:00 PM THDepartment staff,T., Matlin,M.
PHYS B102-00ZIntroductory Physics IISemester / 1
PHYS B122-001Classical MechanicsSemester / 1Lecture: 11:10 AM-12:00 PM MWFNoel,M.
PHYS B122-00JClassical MechanicsSemester / 1Laboratory: 1:10 PM- 3:00 PM THDepartment staff,T., Matlin,M.
PHYS B122-00KClassical MechanicsSemester / 1Laboratory: 1:10 PM- 3:00 PM FDepartment staff,T., Matlin,M.
PHYS B122-00ZClassical MechanicsSemester / 1
PHYS B214-001Introduction to Quantum MechanicsSemester / 1Lecture: 10:10 AM-11:00 AM MWFDepartment staff,T., Department staff,T., Schulz,M.
Computational Lab: 1:10 PM- 4:00 PM T
Computational Lab: 2:10 PM- 5:00 PM F
PHYS B309-001Advanced Electromagnetic TheorySemester / 1Lecture: 11:25 AM-12:45 PM TTHNoel,M.
PHYS B325-001Advanced Theoretical PhysicsSemester / 1Lecture: 11:10 AM-12:00 PM MWFSchulz,M.
PHYS B331-001Advanced Experimental PhysicsSemester / 1Laboratory: 12:10 PM- 4:00 PM MWCheng,X.
PHYS B403-001Supervised ResearchSemester / 1Dept. staff, TBA
PHYS B403-001Supervised ResearchSemester / 1Dept. staff, TBA
PHYS B701-001Supervised WorkSemester / 1Lecture: Date/Time TBACheng,X., Daniel,K., Noel,M., Schaffner,D.
PHYS B701-002Supervised WorkSemester / 1
PHYS B701-003Supervised WorkSemester / 1
PHYS B701-004Supervised WorkSemester / 1
MATH B102-001Calculus IISemester / 1Lecture: 10:10 AM-11:00 AM MWFSudparid,D.
MATH B102-002Calculus IISemester / 1Lecture: 12:10 PM- 1:00 PM MWFKasius,P.
MATH B203-001Linear AlgebraSemester / 1Lecture: 10:10 AM-11:00 AM MWFMyers,A.
MATH B203-002Linear AlgebraSemester / 1Lecture: 12:10 PM- 1:00 PM MWFMyers,A.
MATH B203-003Linear AlgebraSemester / 1Lecture: 1:10 PM- 2:30 PM MWMelvin,P.

Fall 2019

(Class schedules for this semester will be posted at a later date.)

2018-19 Catalog Data

PHYS B101 Introductory Physics I
Fall 2018
PHYS 101/102 is an introductory sequence intended primarily for students on the pre-health professions track. Emphasis is on developing an understanding of how we study the universe, the ideas that have arisen from that study, and on problem solving. Topics are taken from among Newtonian kinematics and dynamics, relativity, gravitation, fluid mechanics, waves and sound, electricity and magnetism, electrical circuits, light and optics, quantum mechanics, and atomic and nuclear physics. An effective and usable understanding of algebra and trigonometry is assumed. First year students who will take or place out of MATH 101 should take PHYS 121. Lecture three hours, laboratory two hours.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)
Scientific Investigation (SI)

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PHYS B102 Introductory Physics II
Spring 2019
PHYS 101/102 is an introductory sequence intended primarily for students on the pre-health professions track. Emphasis is on developing an understanding of how we study the universe, the ideas that have arisen from that study, and on problem solving. Topics are taken from among Newtonian kinematics and dynamics, relativity, gravitation, fluid mechanics, waves and sound, electricity and magnetism, electrical circuits, light and optics, quantum mechanics, and atomic and nuclear physics. An effective and usable understanding of algebra and trigonometry is assumed. Lecture three hours, laboratory two hours.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)
Scientific Investigation (SI)

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PHYS B105 Design and Making for All
Fall 2018
This is a combined lecture and laboratory course that explores how products are designed and made, introducing the engineering design process, creativity methods, human factors considerations, and ideation. Students engage in reverse engineering as well as creation of simple product prototypes using tools including 3D printers.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)
Scientific Investigation (SI)

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PHYS B121 Modern Physics
Fall 2018
This course presents current conceptual understandings and mathematical formulations of fundamental ideas used in physics. Students will develop physical intuition and problem-solving skills by exploring key concepts in physics such as conservation laws, symmetries and relativistic space-time, as well as topics in modern physics taken from the following: fundamental forces, nuclear physics, particle physics, and cosmology. This course can serve as a stand-alone survey of physics or as the first of a four-semester sequence designed for those majoring in the physical sciences. The laboratory involves quantum mechanics, solid state physics, and optics experiments. Lecture three hours, laboratory three hours. Co-requisite: MATH B101.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)
Scientific Investigation (SI)

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PHYS B122 Classical Mechanics
Spring 2019
The lecture material covers Newtonian Mechanics of single particles, systems of particles, rigid bodies, and continuous media with applications, one-dimensional systems including forced oscillators, scattering and orbit problems. Lecture three hours, laboratory two hours. Prerequisites: PHYS 121 (or permission of the instructor) and MATH 101. Corequisite: MATH 102.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)
Scientific Investigation (SI)

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PHYS B201 Electromagnetism
Fall 2018
The lecture material covers electro- and magneto-statics, electric and magnetic fields, induction, Maxwell's equations, and electromagnetic radiation. Scalar and vector fields and vector calculus are developed as needed. The laboratory involves passive and active circuits and projects in analog and digital electronics. Lecture three hours, laboratory three hours. Prerequisite: PHYS 102 or 122. Corequisite: MATH 201.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)
Scientific Investigation (SI)

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PHYS B214 Introduction to Quantum Mechanics
Spring 2019
An introduction to the principles governing systems at the atomic scale and below. Topics include the experimental basis of quantum mechanics, wave-particle duality, Schrödinger's equation and its solutions, and the time dependence of quantum states. Recent developments, such as paradoxes calling attention to the counter-intuitive aspects of quantum physics, will be discussed. Additional topics may be included at the discretion of the instructor. The laboratory provides an introduction to a variety of computational tools and programming techniques. Lecture three hours, laboratory three hours. Prerequisite: MATH 201, PHYS 121 and 122, or permission of the instructor. Corequisite: MATH 203.
Quantitative Methods (QM)
Scientific Investigation (SI)

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PHYS B302 Advanced Quantum Mechanics and Applications
Not offered 2018-19
This course presents nonrelativistic quantum mechanics, including Schrodinger's equation, the eigenvalue problem, the measurement process, the hydrogen atom, the harmonic oscillator, angular momentum, spin, the periodic table, perturbation theory, and the relationship between quantum and Newtonian mechanics. Lecture three hours and additional recitation sessions as needed. Prerequisites: PHYS B214 and PHYS B306 or PHYS H213

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PHYS B303 Statistical Mechanics and Thermodynamics
Fall 2018
This course presents the statistical description of the macroscopic states of classical and quantum systems, including conditions for equilibrium, the microcanonical, canonical, and grand canonical ensembles, and Bose-Einstein, Fermi-Dirac, and Maxwell Boltzmann statistics. The statistical basis of classical thermodynamics is investigated. Examples and applications are drawn from among solid state physics, low temperature physics, atomic and molecular physics, electromagnetic waves, and cosmology. Lecture three hours and additional recitation sessions as needed. Prerequisite: PHYS B214 or H214. Co-requisite: PHYS B306 or H213.

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PHYS B305 Advanced Electronics Lab
Not offered 2018-19
This laboratory course is a survey of electronic principles and circuits useful to experimental physicists and engineers. Topics include the design and analysis of circuits using transistors, operational amplifiers, feedback and analog-to-digital conversion. Also covered is the use of electronics for automated control and measurement in experiments, and the interfacing of computers and other data acquisition instruments to experiments. Laboratory eight hours a week. Prerequisite: PHYS B201

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PHYS B305 Advanced Electronics Lab
Not offered 2018-19
This laboratory course is a survey of electronic principles and circuits useful to experimental physicists and engineers. Topics include the design and analysis of circuits using transistors, operational amplifiers, feedback and analog-to-digital conversion. Also covered is the use of electronics for automated control and measurement in experiments, and the interfacing of computers and other data acquisition instruments to experiments. Laboratory eight hours a week. Prerequisite: PHYS B201

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PHYS B306 Mathematical Methods in the Physical Sciences
Fall 2018
This course presents topics in applied mathematics useful to students, including physicists, engineers, physical chemists, geologists, and computer scientists studying the natural sciences. Topics are taken from Fourier series, integral transforms, advanced ordinary and partial differential equations, special functions, boundary-value problems, functions of complex variables, and numerical methods. Lecture three hours and additional recitation sessions as needed. Prerequisite: MATH 201 and 203.

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PHYS B308 Advanced Classical Mechanics
Not offered 2018-19
This course presents kinematics and dynamics of particles and macroscopic systems using Newtonian, Lagrangian, and Hamiltonian mechanics. Topics include oscillations, normal mode analysis, inverse square laws, nonlinear dynamics, rotating rigid bodies, and motion in noninertial reference frames. Lecture three hours and additional recitation sessions as needed. Prerequisite: PHYS B201 or PHYS B214 or PHYS H214. Co-requisite: PHYS B306 or H213.

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PHYS B309 Advanced Electromagnetic Theory
Spring 2019
This course presents electrostatics and magnetostatics, dielectrics, magnetic materials, electrodynamics, Maxwell's equations, electromagnetic waves, and special relativity. Some examples and applications may come from superconductivity, plasma physics, and radiation theory. Lecture three hours and additional recitation sessions as needed. Prerequisites: PHYS B201 and B306 OR H213 and H214.

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PHYS B322 Solid State Physics
Not offered 2018-19
This course presents the physics of solids and nanomaterials. Topics include crystal structure and diffraction, the reciprocal lattice and Brillouin zones, crystal binding, lattice vibrations and normal modes, phonon dispersion, Einstein and Debye models for the specific heat, the free electron model, the Fermi surface, electrons in periodic structures, the Bloch theorem and band structure. Additional topics are taken from nanoscale structures (0-D nanodots, 1-D nanowires, and 2-D thin films), nanomagnetism, spintronics, superconductivity, and experimental methods for fabrication and characterization of nanomaterials. Lecture three hours and additional recitation sessions as needed. Prerequisites: PHYS B201 and PHYS B214 and B306 OR PHYS H213 and H214.

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PHYS B324 Optics
Not offered 2018-19
This course covers principles of geometrical and physical optics. Topics include electromagnetic waves and their propagation in both isotropic and anisotropic media; interference, diffraction, and Fourier optics; coherence theory; ray optics and image formation; and, as time permits, an introduction to the quantum nature of light. Prerequisites: PHYS B201 (or H106); Co-Requisites: PHYS B306 (or H213)

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PHYS B325 Advanced Theoretical Physics
Spring 2019
This course presents one or more of several subjects, depending on instructor availability and student interest. The possible subjects are (1) special relativity, general relativity, and gravitation, (2) the standard model of particle physics, (3) particle astrophysics and cosmology, (4) relativistic quantum mechanics, (5) grand unified theories, (6) string theory, loop quantum gravity, and causal set theory. Lecture three hours and additional recitation sessions as needed. Prerequisites: PHYS 306 and 308. Corequisite: PHYS 302.

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PHYS B328 Galactic Dynamics & Advanced Classical Mechanics
Fall 2018
This course is for the advanced undergraduate interested in the physics galactic dynamics and evolution, i.e. collisionless, gravitational N-body systems composed of stars and dark matter. Topics covered will include potential theory, orbit theory, collisionless Boltzmann equation, Jeans equations, disk stability, violent relaxation, phase mixing, dynamical friction and kinetic theory. To support the these theories, we will also cover advanced topics in classical mechanics including Lagrange & Hamilton methods, the central force problem, canonical transformations, action-angle variables, chaos and perturbation theory. This course is taught in a seminar format, in which students are responsible for presenting much of the course material in class meetings. Prerequisites: MATH B201, MATH B203, PHYS B201, B214, and PHYS B308 or permission from instructor.

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PHYS B331 Advanced Experimental Physics
Spring 2019
This laboratory course consists of set-piece experiments as well as directed experimental projects to study a variety of phenomena in atomic, molecular, optical, nuclear, and solid state physics. The experiments and projects serve as an introduction to contemporary instrumentation and the experimental techniques used in physics research laboratories in industry and in universities. Students write papers in a format appropriate for research publications and make a presentation to the class. Laboratory eight hours a week. Corequisite: PHYS 214.

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PHYS B380 Physics Pedagogy
Not offered 2018-19
Students work with a faculty member as assistant teachers in a college course in physics, or as assistants to a faculty member developing new teaching materials. Students will be involved in some combination of the following: directed study of the literature on teaching and learning pedagogy, construction and design of parts of a course, and actual teaching in a lecture course or laboratory. Corequisite: PHYS 201 or 214.

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PHYS B390 Independent Study
Not offered 2018-19
At the discretion of the department, juniors or seniors may supplement their work in physics with the study of topics not covered in regular course offerings.

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PHYS B398 Senior Seminar
Required for senior Physics majors. Students meet weekly with faculty to discuss recent research findings in physics as well as career paths open to students with a major in Physics. Students are required to attend all colloquia and student research presentations hosted by the Bryn Mawr College Physics department. Prerequisite: Senior Standing.

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PHYS B403 Supervised Research
At the discretion of the department, juniors and seniors may supplement their work in physics with research in one of the faculty research groups. Students provide a written paper and give an oral presentation at the end of the semester or year. Students are encouraged to contact individual faculty members and the departmental Web pages for further information.

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PHYS B403 Supervised Research
At the discretion of the department, juniors and seniors may supplement their work in physics with research in one of the faculty research groups. Students provide a written paper and give an oral presentation at the end of the semester or year. Students are encouraged to contact individual faculty members and the departmental Web pages for further information.

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PHYS B503 Electromagnetic Theory I
Not offered 2018-19
This course is the first semester of a year-long standard sequence on electromagnetism. This semester begins with topics in electrostatics, including Coulomb's and Gauss's Laws, Green functions, the method of images, expansions in orthogonal functions, boundary-value problems, and dielectric materials. The focus then shifts to magnetic phenomena, including the magnetic fields of localized currents, boundary-value problems in magnetostatics, and the interactions of fields and magnetic materials. The last portion of the course treats Maxwell's equations, transformation properties of electromagnetic fields, electromagnetic waves and their propagation and, time permitting, the basics of waveguides. This course is taught in a seminar format, in which students are responsible for presenting much of the course material in class meetings.

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PHYS B504 Electromagnetic Theory II
Not offered 2018-19
This course is the second semester of a two semester graduate level sequence on electromagnetic theory. Topics include electromagnetic radiation, multiple fields, scattering and diffraction theory, special relativity, Lagrangian and Hamiltonian descriptions, radiation from point particle motion, Lienard-Wiechert potentials, classical electron theory and radiation reaction. Additional topics may be included at the discretion of the instructor. This course is taught in a seminar format, in which students are responsible for presenting much of the course material in class meetings. Prerequisite: PHYS 503

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PHYS B505 Classical Mechanics I
Fall 2018
This course will cover mechanics topics familiar from the undergraduate curriculum, but from deeper theoretical and mathematical perspectives. Topics will include Lagrange & Hamilton methods, the central force problem, rigid body motion, oscillations, and canonical transformations. Time permitting, other topics that might be explored include chaos theory, special relativity, and the application of Lagrangian and Hamiltonian methods to continuous systems. This course is taught in a seminar format, in which students are responsible for presenting much of the course material in class meetings.

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PHYS B507 Statistical Mechanics I
Not offered 2018-19
Review of Thermodynamics; Equilibrium statistical mechanics -- microcanonical and canonical ensembles; Ideal gases, photons, electrons in metals; Phase transitions; Monte Carlo techniques; Classical fluids, Non-equilibrium statistical mechanics.

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PHYS B522 Solid State Physics
Not offered 2018-19
This course presents the physics of solids and nanomaterials. Topics include crystal structure and diffraction, the reciprocal lattice and Brillouin zones, crystal binding, lattice vibrations and normal modes, phonon dispersion, Einstein and Debye models for the specific heat, the free electron model, the Fermi surface, electrons in periodic structures, the Bloch theorem and band structure. Additional topics are taken from nanoscale structures (0-D nanodots, 1-D nanowires, and 2-D thin films), nanomagnetism, spintronics, superconductivity, and experimental methods for fabrication and characterization of nanomaterials. Lecture three hours and additional recitation sessions as needed. Prerequisites: PHYS B201 and PHYS B214 and B306.

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PHYS B701 Supervised Work
Fall 2018, Spring 2019
Supervised Research

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GEOL B260 Origin Stories: From the Big Bang to Mother Earth
Not offered 2018-19
This is a co-taught intermediate science course, instructed by a Geology and Physics professor, that will focus on the core scientific principals related to Cosmology, Physics and Geology that help address fundamental questions regarding the origin of the Universe, the origin of time, the origin of stars and our own solar system, and the origin of Earth, its atmosphere, hydrosphere and biosphere. The course will be a mix of fundamental scientific principles used to scaffold a deeper understanding of how scientists have come to understand and question stories of origin. Group discussions will be informed by close reading of scientific texts, and occasional problem sets.
Scientific Investigation (SI)

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MATH B101 Calculus I
Fall 2018
A first course in one-variable calculus: functions, limits, continuity, the derivative, differentiation formulas, applications of the derivative, the integral, integration by substitution, fundamental theorem of calculus. May include a computer component. Prerequisite: adequate score on calculus placement exam, or permission of the instructor. Students should have a reasonable command of high school algebra, geometry and trigonometry.
Quantitative Methods (QM)
Quantitative Readiness Required (QR)

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MATH B102 Calculus II
Fall 2018, Spring 2019
A continuation of Calculus I: techniques of integration, applications of integration, infinite sequences and series, convergence tests, power series. May include a computer component. Math 102 assumes familiarity of the content covered in Math 101 or its equivalent. Continuing students need to have obtained a 2.0 or higher in Math 101.
Quantitative Methods (QM)

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MATH B201 Multivariable Calculus
Fall 2018
Vectors and geometry in two and three dimensions, partial derivatives, optimization problems, double and triple integrals, vector analysis (gradients, curl and divergence), line and surface integrals, the theorems of Gauss, Green and Stokes. May include a computer component. Prerequisite: MATH 102 with a grade of 2.0 or higher or permission of instructor.
Quantitative Methods (QM)

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MATH B203 Linear Algebra
Spring 2019
Systems of linear equations, matrix algebra, determinants, vector spaces and subspaces, linear independence, bases and dimension, linear transformations and their representation by matrices, eigenvectors and eigenvalues, orthogonality, and applications of linear algebra. Prerequisite or corequisite: MATH 102, or permission of the instructor.
Quantitative Methods (QM)

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