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4.67
1.00
3.84
Fall 2024
Overview of current areas of research in the broad discipline of physics, including the historical context of their development. Describes various career options in physics, including academia, government, and industry. Outlines the college physics curriculum and describes opportunities to participate in research at the university.
4.22
2.00
3.75
Fall 2024
This course teaches how to use the computer to solve quantitative problems. This involves learning the skills to write computer programs dedicated to certain tasks, to visualize data graphically, to use scientific software, and to learn other practical skills that are important for a future career in the sciences.
5.00
2.00
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Fall 2024
Practical electronics for scientists, from resistors to microprocessors. Prerequisite: Instructor permission.
3.99
2.39
3.19
Fall 2024
The subject of energy will be considered from the perspective of a physicist. Students will learn to use quantitative reasoning and the recognition of simple physics restraints to examine issues related to energy that are of relevance to society and the future evolution of our civilization. Prerequisite: Physics and math at high school level.
3.58
2.75
3.29
Fall 2024
Includes Maxwell's equations; electromagnetic waves and their interaction with matter; interference, diffraction, polarization; waveguides; and antennas. Prerequisite: PHYS 3420.
3.00
3.00
3.17
Fall 2024
Second semester of the introductory physics sequence recommended for prospective physics majors. Topics include electricity, magnetism, circuits and optics. Emphasis is on building foundations for future studies in physics. Three lecture hours. PHYS 1420 or PHYS 1425; co-requisite MATH 2310; or instructor permission
2.83
3.00
3.43
Fall 2024
Applications of physical principles to a diverse set of phenomena: order of magnitude estimates, dimensional analysis, material science and engineering, astrophysics, aeronautics and space flight, communications technology, meteorology, sound & acoustics and fluid dynamics. Not all topics will be covered in every course. Three lecture hours. (Y) Prerequisite: PHYS 2620 or instructor permission.
4.07
3.00
3.53
Fall 2024
Approximately five experiments drawn from the major fields of physics. Introduces precision apparatus, experimental techniques, and methods of evaluating experimental results. Outside report preparation is required. Six laboratory hours. Prerequisite: PHYS 2640 or PHYS 3140
4.26
3.03
3.12
Fall 2024
For non-science majors. Introduces physics and science in everyday life, considering objects from our daily environment and focusing on their principles of operation, histories, and relationships to one another. 1050 is concerned primarily with mechanical and thermal objects, while 1060 emphasizes objects involving electromagnetism, light, special materials, and nuclear energy. They may be taken in either order.
4.44
3.50
3.34
Fall 2024
The course begins by covering the fundamentals of analog and digital electronics, including the use of transistors, FET's, operational amplifiers, TTL, and CMOS integrated circuits. Following this students conduct projects with modern microcontroller boards (Arduino and Raspberry Pi) using the concepts and the experience gained from the prior fundamentals. Six laboratory hours. Prerequisite: PHYS 2040 or PHYS 2419.
2.67
3.50
3.23
Fall 2024
Includes reflection and refraction at interfaces, geometrical optics, interference phenomena, diffraction, Gaussian optics, and polarization. Prerequisite: PHYS 2320, 2415, 2610, or an equivalent college-level electromagnetism course; knowledge of vector calculus and previous exposure to Maxwell's equations.
1.91
3.51
3.40
Fall 2024
Group problem solving, data acquisition and analysis, and application of physics to real life scenarios in the framework of classical mechanics and thermodynamics. The course is geared towards STEM majors and required for engineering and physics majors. Co-requisites: PHYS 1425 or 1420.
2.13
3.58
3.36
Fall 2024
Group problem solving, data acquisition and analysis, and application of physics to real life scenarios in the framework of electricity and magnetism. The course is geared towards STEM majors and required for engineering and physics majors. Co-requisites: PHYS 2415 or 2410. Prerequisite: PHYS 1429
2.41
3.69
3.16
Fall 2024
First semester of introductory physics sequence recommended for engineers. Topics include particle kinematics and dynamics, energy and momentum conservation, rotational motion, fluids, oscillatory motion, waves, sound, and thermodynamics. Emphasis is on development of skills for practical applications. Three lecture hours. Co-requisite: MATH 1320 or equivalent.
3.71
3.75
3.05
Fall 2024
Statics and dynamics of particles and rigid bodies treated with extensive use of vector calculus; includes the Lagrangian formulation of mechanics. Prerequisites: MATH 2310 or equivalent, MATH 3250 or equivalent, and PHYS 2720 or instructor permission.
2.08
3.76
3.48
Fall 2024
Group problem solving, data acquisition and analysis, and application of physics to real life scenarios in the framework of classical mechanics and thermodynamics. The course satisfies the requirements for pre-health students. Co-requisites: PHYS 2010
2.71
3.95
3.23
Fall 2024
Physics 2010 and 2020 constitute a terminal course sequence covering the principles of mechanics, heat, electricity and magnetism, optics, atomic, solid state, nuclear, and particle physics. A working knowledge of arithmetic, elementary algebra, and trigonometry is essential. The PHYS 2010 - 2020 sequence does not normally serve as prerequisite for the courses numbered 3110 and above. PHYS 2010, 2020, in conjunction with the laboratories PHYS 2030, 2040, satisfy the physics requirement of medical and dental schools. PHYS 2010 is prerequisite for 2020. Three lecture hours.
4.00
4.00
3.46
Fall 2024
Studies subatomic structure; basic constituents and their mutual interactions.
2.67
4.15
3.10
Fall 2024
Second semester of introductory physics sequence recommended for engineers and other scientists. Topics include electricity, magnetism, circuits and optics. Emphasis is on development of skills for practical applications. Three lecture hours. Prerequisites: PHYS 1420 or PHYS 1425; co-requisite: MATH 2310; or instructor permission.
1.44
4.33
3.26
Fall 2024
Includes temperature and the laws of thermodynamics; introductory treatments of kinetic theory and statistical mechanics; and applications of Boltzmann, Bose-Einstein, and Fermi-Dirac distributions. Prerequisite: MATH 3255 (preferred) or MATH 3250, and PHYS 2620, or instructor permission.
3.04
4.60
3.16
Fall 2024
Includes quantum phenomena and an introduction to wave mechanics; the hydrogen atom and atomic spectra. Prerequisite: MATH 3250, MATH 4210 or PHYS 3340, PHYS 2620, or instructor permission.
4.00
4.67
3.46
Fall 2024
This course provides an introduction to the Python programming language with applications to common problems in the science and engineering fields. It emphasizes three core skills: analyzing data, simulating data, and visualizing data. No previous programming or computer experience is required. Prerequisite: MATH 1210 or equivalent, or instructor permission.
4.33
5.00
3.34
Fall 2024
Reviews special relativity and coordinate transformations. Includes the principle of equivalence; effects of gravitation on other systems and fields; general tensor analysis in curved spaces and gravitational field equations; Mach's principle, tests of gravitational theories; perihelion precession, red shift, bending of light, gyroscopic precession, radar echo delay; gravitational radiation; relativisitic stellar structure and cosmography; and cosmology. Prerequisite: Advanced calculus through partial differentiation and multiple integration; vector analysis in three dimensions.
3.33
5.00
3.54
Fall 2024
This course will study various phenomena in condensed matter physics, including crystallography, basic group theory, x-ray and neutron diffraction, lattice vibrations, electrons in a metal, electronic band theory, electrons under an external magnetic field, semiconductors, magnetism and superconductivity. Not only the topics but also the theoretical and experimental techniques that are covered in this course are essential for PhD students as well as advanced Undergraduate students in Physics, Chemistry, Chemical Engineering, and Materials Science and Engineering to excel in their research career.Prerequisite: PHYS 3650 (Quantum Mechanics I) or an equivalent course
5.00
5.00
3.46
Fall 2024
Surveys computational methods for problem solving in the physical sciences. Topics include numerical precision and efficiency, solutions of differential equations, optimization problems, Monte Carlo simulation, statistical methods, and data analytics. Tools for data visualization and use of libraries in both C/C++ and Python will be explored. Prerequisites: PHYS 2410 or PHYS 2415, PHYS 2620, and programming experience in Python and/or C.
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3.12
Fall 2024
Surveys computational methods for problem solving in the physical sciences. Topics include numerical precision and efficiency, solutions of differential equations, optimization problems, Monte Carlo simulation, statistical methods, and data analytics. Tools for data visualization and use of libraries in both C/C++ and Python will be explored. Prerequisites: PHYS 2410 or PHYS 2415, PHYS 2620, and programming experience in Python and/or C.
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Fall 2024
Individual study of topics in physics not normally covered in formal classes. Study is carried out under the tutelage of a faculty member with whom the requirements are agreed upon prior to enrollment. (S-SS) Prerequisite: Instructor permission
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Fall 2024
A research project on a topic in physics carried out under the supervision of a faculty member culminating in a written report. May be taken more than once. (S-SS) Prerequisite: Instructor permission.
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Fall 2024
First and second year students enrolled in the Physics PhD program are required to take Physics Colloquium in their first and second years of study.
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Fall 2024
Lectures on topics of current interest in physics research and pedagogy. May be repeated for credit. Prerequisite: Instructor permission.
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3.55
Fall 2024
An introduction to quantum computation, a modern discipline looking for ways to harness the power of quantum mechanics to gain exponential speedup of computations and simulations. We will go through the basic algorithms, discuss error correction and various physical platforms suggested for a possible implementation of such a computer. The course assumes a knowledge of linear algebra, basic probability and familiarity with quantum mechanics.
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3.35
Fall 2024
The statics and dynamics of particles and rigid bodies. Discusses the methods of generalized coordinates, the Langrangian, Hamilton-Jacobi equations, action-angle variables, and the relation to quantum theory. Prerequisite: PHYS 3210 and MATH 5220.
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3.39
Fall 2024
A consistent mathematical account of the phenomena of electricity and magnetism; electrostatics and magnetostatics; macroscopic media; Maxwell theory; and wave propagation. Prerequisite: PHYS 7250 or instructor permission.
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3.43
Fall 2024
Introduces the physical basis of quantum mechanics, the Schroedinger equation and the quantum mechanics of one-particle systems, and stationary state problem. Prerequisite: Twelve credits of 3000-level physics courses and MATH 5210, 5220, or instructor permission.
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Fall 2024
Independent research or practical training supervised by a faculty member. May be repeated for credit.
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3.97
Fall 2024
Studies the principles and techniques of atomic physics with application to selected topics, including laser and microwave spectroscopy, photoionization, autoionization, effects of external fields, and laser cooling. Prerequisite: PHYS 7620 or instructor permission.
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3.57
Fall 2024
Introduces the quantization of field theories, including those based on the Dirac and Klein-Gordon equations. Derives perturbation theory in terms of Feynman diagrams, and applies it to simple field theories with interactions. Introduces the concept of renormalization. Prerequisite: PHYS 7620.
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Fall 2024
For master's thesis, taken under the supervision of a thesis director.
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3.99
Fall 2024
Workshops given by UVA Physics faculty describing their research. Restricted to Arts and Sciences graduate students in Physics only
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Fall 2024
For students who have not passed the Qualifying exam for doctoral research, taken before a dissertation director has been selected.
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Fall 2024
For doctoral dissertation, taken under the supervision of a dissertation director.
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