Physics
www.phys.vt.edu/
University Exemplary Department Beate Schmittmann, Chair
Professors: L. N. Chang1; J.R. Heflin; J. J. Heremans; P.R. Montague, S.K. Mun;
L. E. Piilonen; M. L. Pitt; B. Schmittmann; J. H. Simonetti; U. Tauber; R. B. Vogelaar
Associate Professors: N. Arav; P. Huber; G. Khodaparast; J. M. Link; D. Minic;
K. Park; M. J. F. Pleimling; H. Robinson; E.R. Sharpe; V. Soghomonian; T. Takeuchi
Assistant Professors:L. Anderson; S. Cheng; D. Farrah; J. Gray; C. Mariani;
W. Mather; V. Nguyen; V. W. Scarola
Research Assistant Professor: K. Wong
Adjunct Professors: R. Blankenbecler; C. D. Bowman; Z. Chang; Y. Liang; G.R. Myneni, Z. Toroczkai
Career Advisor: A J.R. Heflin
Affiliated Faculty: L. Asryan2; S. Eubank3; L. Guido4; R. Mueller6; A. Onufriev5; M. Paul6
1Dean of the College of Science
2Regular appointment with Material Science and Engineering
3Regular appointment with the Virginia Bioinformatics Institute
4Regular appointment with Materials Science & Engineering and Electrical & Computer Engineering
5Regular appointment with Computer Science
6Regular appointment with Mechanical Engineering
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Overview
The physics curriculum is designed to provide a broad foundation in the physical sciences, as well as specialized training in classical and modern physics, and it may lead to either a B.S. or a B.A. An honors student may also qualify for a five-year program leading to both the B.S. and M.S. Experimental opportunities are available in such fields as fundamental particle physics, nuclear physics, condensed matter physics, laser optics, astronomy, and multimedia teaching demonstrations. Superior students are encouraged to participate with faculty members in undergraduate research projects. Liberal emphases in the physics curriculum permit students to give special attention to those aspects of the discipline they prefer and enable them either to pursue a traditional course of study as preparation for joining the technical staffs of industries or government laboratories, or for graduate studies in physics (B.S.); or to pursue an interdisciplinary course of study with a strong background in physics (B.A.).
A handbook that includes sample curricula for emphases in astrophysics, chemistry, computer science, education, electrical engineering, finance, geophysics, materials science, mathematics, pre-health, and pre-law is available from the department on request. The requirements for the B.S. are, in addition to the college curriculum and the Curriculum for Liberal Education: Phys 2305, 2306, 2325, 2326, 3314, 3355, 3356, 3405, 3406, 3704; 2504 and 3324 (or 3455 and 3504); two of 4504, 4554, 4574, 4614, 4674, or 4714; and 4315, 4316, 4455, 4456; Math 1114, 1205, 1206, 1224, 2214, 2224, 3214, 4984 (Applied Complex Variable 1 cr.), 4564 (or 4425), and Chem 1035, 1036, 1045, 1046. Outstanding students may also elect to complete the requirements for a B.S. "in honors." A description of this honors program in physics is included in the handbook indicated above.
The requirements for the B.A. are, in addition to the college curriculum and the Curriculum for Liberal Education: Phys 2074, 2305, 2306, 2325, 2326, 2504, 3314, 3324, 3355, 3405, 3655 (or 3656), 3704, 4315; one of 4504, 4554, 4574, 4614, 4674, or 4714; Math 1114, 1205, 1206, 1224, 2214, 2224.
The requirements for the B.A. Education Option, are, in addition to the college curriculum and the Curriculum for Liberal Education: Phys 2074, 2305, 2306, 2325, 2326, 2504, 3314, 3324, 3355, 3405, 3655 (or 3656), 3704, 4315; one of 4504, 4554, 4574, 4614, 4674, or 4714; Math 1114, 1205, 1206, 1224, 2214, 2224; Hist 3705 (or STS 3705), 3706 (or STS 3706); 13-14 specific credits of Astronomy, or Biology, or Chemistry, or Geosciences.
The requirements for the B.A. Pre-Health Option, are, in addition to the college curriculum and the Curriculum for Liberal Education: Phys 2074, 2305, 2306, 2325, 2326, 2504, 3314, 3324, 3355, 3405, 3704, 4315, 4714; one of 3655, 3656, 4504, 4554, 4574, 4614; Math 1114, 1205, 1206, 1224, 2214, 2224; Engl 1105, 1106; Stat 4674; 8 specific credits of Biology; 16 specific credits of Chemistry.
The requirements for the B.A. Pre-Law Option, are, in addition to the college curriculum and the Curriculum for Liberal Education: Phys 2074, 2305, 2306, 2325, 2326, 2504, 3314, 3324, 3355, 3405, 3704, 4315; two of 3655, 3656, 4504, 4554, 4574, 4614, 4714; Math 1114, 1205, 1206, 1224, 2214, 2224; Engl 1105, 1106, 3764; COS 2304, 4304; Comm 2004.
The department also offers the M.S. and Ph.D. in physics (see the Graduate Catalog).
Transfer students should contact the department early, preferably one full semester prior to entrance. This procedure will allow a thorough evaluation of transfer credits and correct placement.
A student may obtain a minor in physics by registering with the department and successfully completing 2305, 2306, 3455 (or 3324), 3355 (or 3405), 3704, plus three more physics credits at or above the 3000 level.
A minor in astronomy is also available and may be obtained by registering with the department and successfully completing 1055, 1056, 1155, 1156, 3154, 3655, 3656, and one more course from an approved list (see J. H. Simonetti).
The department participates in the Cooperative Education Program in which a student may alternate through two successive years a semester of study with a semester of professional employment in his/her discipline; these two years normally replace the student's sophomore year. Additional information on the program is included in the "Academics" chapter in this catalog and in the handbook indicated above.
Satisfactory Progress
University policy requires that students who are making satisfactory progress toward a degree meet minimum criteria toward the Curriculum for Liberal Education (see Academics chapter in this catalog), toward the College of Science Core (see first part of this chapter), and toward the degree in physics. Satisfactory progress toward the degree in physics requires that:
- Upon having attempted 72 semester credits (including transfer,
advanced placement, advanced standing, credit by examination, freshman
rule), students must have completed:
B.S. in Physics
Chem 1035, 1036: General Chemistry | 6 |
Chem 1045, 1046: General Chemistry Lab | 2 |
ENGL 1105, 1106: Freshman English | 6 |
MATH 1114: Elementary Linear Algebra | 2 |
MATH 1205, 1206: Calculus | 6 |
MATH 1224: Vector Geometry | 2 |
MATH 2214: Intro. to Differential Equations | 3 |
MATH 2224: Multivariable Calculus | 3 |
PHYS 2305, 2306: Foundations of Physics I | 8 |
Total Credits
| 38 |
B.A in Physics
ENGL 1105, 1106: Freshman English | 6 |
MATH 1114: Elementary Linear Algebra | 2 |
MATH 1205, 1206: Calculus | 6 |
MATH 1224: Vector Geometry | 2 |
MATH 2214: Intro. to Differential Equations | 3 |
MATH 2224: Multivariable Calculus | 3 |
PHYS 2305, 2306: Foundations of Physics I | 8 |
Total Credits
| 30 |
Undergraduate Courses (PHYS)
1055,1056: INTRODUCTION TO ASTRONOMY
Survey course covering astronomy topics ranging from the solar system to the universe. 1055: apparent sky motions, telescopes, properties of the planets, structure and evolution of the solar system. (3H,3C)
1155,1156: ASTRONOMY LABORATORY
Simulation of apparent sky motions; observations of planets, stars, and nebulae with quantitative analysis; long term observations of sky changes; analysis of images; laboratory experiments of astrophysical relevance. Co: 1055 for 1155; 1056 for 1156. (3L,1C) I,II.
2074: HIGHLIGHTS OF CONTEMPORARY PHYSICS
Conceptual overview of fundamental modern thinking in physics. Presents the key ideas and philosophical/ethical aspects of the most important developments in modern physics, such as quantum mechanics, relativity, particle physics, cosmology, etc., and discusses their impact on our understanding of the universe and our position in it. I (3H,3C)
2205-2206: GENERAL PHYSICS
For students in curricula other than physical sciences, mathematics, or engineering, who have not studied calculus. 2205: Mechanics, optics, acoustics. 2206: Electromagnetism, thermodynamics, relativity, and topics in modern physics. Pre: MATH 1016 or MATH 1016H or MATH 2015 or MATH 1205H or MATH 1525 or MATH 1535 for 2205; 2305 or 2205 for 2206. (3H,3C) I,II.
2215-2216: GENERAL PHYSICS LABORATORY
Lab experiments dealing with basic laws and techniques of physics; designed to illustrate topics coverd in General Physics, 2205-2206. Should be taken concurrently and in phase with lecture sequence, 2205-2206. Co: 2205 for 2215; 2206 for 2216. (3L,1C)
2305-2306: FOUNDATIONS OF PHYSICS I
First two semesters of the three-semester introductory sequence for students in physical sciences and mathematics. Includes classical mechanics, gravity, and waves (2305); heat, electricity, magnetism and optics (2306); laboratory work. 3304 is the concluding semester of the sequence. Pre: MATH 1205 or MATH 1205H or MATH 1206 or MATH 1206H for 2305; (MATH 1206 or MATH 1206H), PHYS 2305 for 2306. Co: MATH 1206, 2325 for 2305. (3H,3L,4C) I,II.
2325-2326: SEMINAR FOR PHYSICS MAJORS
Introduction to the field of physics and to the Physics Department. Overview of modern physics topics such as special relativity, quantum mechanics, condensed matter, nuclear, and particle physics. Presentation of research activities in the department. Also provides more in-depth discussion of and math preparation for topics in 2305-2306. For physics majors. Co: 2305 for 2325; 2306 for 2326. (1H,1C)
2404: PHYSICS OUTREACH
Service learning through teaching. An early field experience for physics students who are interested in physics education. Visit local schools and host campus visits to teach K-12 students fundamental physics concepts by performing physics demonstrations and activities. Learn successful communication techniques, lead classroom discussions, and utilize pedagogical content knowledge to effectively organize physics presentations to the general public. Repeatable (no maximum). Variable credit course. Co: 2305.
2504: MATH METHODS IN PHYSICS
Applications of mathematical methods to physics. Topics include spatial coordinate systems, linear algebra techniques in coupled motions, series approximations of solutions to physical systems, extremum problems in physics, differential equations in mechanics, integration in two and three spatial dimensions, probability theory in thermal physics. Pre: 2305. Co: MATH 2214, MATH 2224, 2306. (3H,3C)
2964: FIELD STUDY
Pass/Fail only. Variable credit course.
2974: INDEPENDENT STUDY
Variable credit course.
2974H: INDEPENDENT STUDY
Honors section. Variable credit course.
2984: SPECIAL STUDY
Variable credit course.
2994: UNDERGRADUATE RESEARCH
Variable credit course.
2994H: UNDERGRADUATE RESEARCH
Honors. Variable credit course.
3154: OBSERVATIONAL ASTROPHYSICS
Telescopic observations of the moon, planets, stars, interstellar medium, and galaxies; astrophotography; digital imaging. Telescopes; virtual observing techniques and instruments; photographic and digital imaging systems. Astronomical data reduction and interpretation; digital image processing. Prior credit for Phys 2154 precludes credit for 3154. Pre: 1156. (1H,3L,2C) II.
3314: INTERMEDIATE LABORATORY
Characteristics of common instrumentation and basic circuits, methods of producing good practices in data gathering, recording, and analysis. (2H,3L,3C) II.
3324: MODERN PHYSICS
Photons and their interactions with matter, wave-particle duality, Heisenberg uncertainty principle, Schrodinger's equation of motion, hydrogenic and multi-electron atoms, Pauli exclusion principle, molecules, solids, nuclei, elementary particles. Includes lab work. MATH 4544 can be substituted for co-requisite MATH 2214. Pre: 2306. Co: MATH 2214, 2504. (3H,3L,4C)
3355-3356: INTERMEDIATE MECHANICS
Formal aspects of classical mechanics and dynamics. Topics include Newtonian, Lagrangian and Hamiltonian theory applied to non-relativistic systems in one, two, and three dimensions, relativistic dynamics, linear algebra applied to coupled many-body motion, small oscillations, and rigid body motion. Pre: MATH 1224, MATH 2214, PHYS 2305, PHYS 2306, PHYS 2504 for 3355; 3355 for 3356. (3H,3C)
3405-3406: INTERMEDIATE ELECTRICITY AND MAGNETISM
Electrostatics, multipoles, Laplace's equation, and dielectric media. Magnetostatics, magnetic media, and electromagnetic induction. Maxwell's equations, electromagnetic energy, waves, and radiation. Must meet pre-requisites and have a grade of C or better in each of 2305-2306 sequence. Pre: MATH 2214, PHYS 2305, PHYS 2306, PHYS 2504 for 3405; 3405 for 3406. (3H,3C) I,II.
3655,3656: INTRO ASTROPHYSICS
Application of elementary physical laws to determine dimensions, masses, luminosities, structures, and evolution of astronomical objects and the universe as a whole. Emphasis is on quantitative derivation. Pre: 2306. (3H,3C) I,II.
3704: THERMAL PHYSICS
Introduction to the concepts, formalism, and applications of classical and quantum statistical mechanics, including thermodynamics. Pre: 2306, 3324. Co: MATH 2214, 2504. (3H,3C) II.
4315-4316: MODERN EXPERIMENTAL PHYSICS
Representative apparatus, techniques, and phenomena of contemporary research. Includes electrical measurements, computers, thermometry, vacuum deposition, machine shop, nuclear spectra, experimentation related to major developments of modern physics. Pre: 3314 for 4315; 3314, 4315 for 4316. (6L,2C) I,II.
4455-4456: INTRODUCTION TO QUANTUM MECHANICS
Experimental bases; postulates; conservation theorems and symmetry; one-dimensional and two-dimensional problems; angular momentum and problems in three dimensions; matrix mechanics and spin; applications to atomic and molecular physics; perturbation theory; scattering. Pre: 3356 for 4455; 4455 for 4456. Co: 3406 for 4455. (3H,3C) I,II.
4504: INTRODUCTION TO NUCLEAR AND PARTICLE PHYSICS
Structure and properties of atomic nuclei and elementary particles, theoretical interpretations based on elementary quantum mechanics. Symmetries; various nuclear models; interactions at small distances; classification of elementary particles. Consent required. Co: 4456. (3H,3C) II.
4554: INTRODUCTION TO SOLID STATE PHYSICS
Basic concepts of solid state physics including crystal structure, lattice vibrations, electron states, energy bands, semiconductors, metals. Consent required. Co: 4456. (3H,3C) II.
4574: NANOTECHNOLOGY
Introduction to methods of controlling matter on the nanometer length scale and the applications thereof. Nanolithography, self-assembly, and scanned probe microscopy; nanomaterials including fullerenes, carbon nanotubes, and quantum dots; nanoscale and molecular electronics; nanoelectromechanical systems; nanoscale optoelectronics; and nanobiotechnology. Pre: 2205, 2206 or 2305, 2306. (3H,3C)
4614: OPTICS
Fundamentals of the ray, wave and quantum models of light, and topics in modern optics with contemporary applications. I Pre: 2306, MATH 2214, MATH 2224. (3H,3C)
4624: OPTICS LABORATORY
Laboratory experiments dealing with ray and wave optical phenomena designed to illustrate and complement the principles covered in OPTICS Phys 4614. Physics majors are required to take 4624 concurrently with the lecture course 4614. I Co: 4614. (3L,1C)
4654: MODERN COSMOLOGY
Survey of our current understanding of the origin, evolution, and fate of the Universe. Observational evidence behind the idea of the hot Big Bang, including the linear velocity-distance law, the existence of the cosmic microwave background, and the arguments for dark matter. Physics of a dynamic, expanding Universe via the Friedman-Lemaitre- Robertson-Walker metric. Physical principles to determine the conditions in the early Universe, introducing the idea of inflation. Mechanisms driving the origin and evolution of galaxies and large-scale structures. Pre: 3656, 4455. (3H,3C)
4674: INTRODUCTION TO GENERAL RELATIVITY
Introduction to methods and applications of Einstein's general theory of relativity. Space and time and gravity in Newtonian physics; special theory of relativity, gravity as geometry of curved space-time; black holes; cosmology; Einstein's gravitational field equations; gravitational waves and relativistic stars. Pre: MATH 2214 or MATH 2514, PHYS 3356. Co: 3406. (3H,3C)
4714: INTRODUCTION TO BIOPHYSICS
Selected topics from the general area of biomechanics, bioelectricity, radiation biophysics, molecular biophysics, and thermodynamics and transport in biological systems. Emphasis on the physical aspects of biological phenomena and biophysical measurement techniques and instrumentation. I Pre: 2206 or 2306. (3H,3C)
4755-4756: INTRODUCTION TO COMPUTATIONAL PHYSICS
Survey of computational methods in physics. 4755: Applications in physics of curve fitting, numerical calculus, ordinary and partial differential equations, numerical methods for matrices, spectral analysis, and N-body systems. 4756: Investigation of physical systems using Molecular Dynamics simulations, Monte Carlo simulations, genetic algorithm and numerical renormalization. Introduction to advanced techniques, as for example density matrix renormalization group method, matrix product state approach, smoothed particle hydrodynamics, and density functional theory. Pre: 2306, CS 1044 for 4755; 4455, 4755 for 4756. (3H,3C)
4964: FIELD STUDY
Pass/Fail only. Variable credit course.
4974: INDEPENDENT STUDY
Variable credit course.
4974H: INDEPENDENT STUDY
Honors section. Variable credit course.
4984: SPECIAL STUDY
Variable credit course.
4994: UNDERGRADUATE RESEARCH
Variable credit course.
4994H: UNDERGRADUATE RESEARCH
Honors section. Variable credit course.
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