Physics

Not all of these courses are taught every year/semester. Check with your physics advisor.

**1010 Honors Introductory Physics** Applications of concepts taught in PHYS 1303, 1304, 1307, and 1308 in modern science and technology. Zero-credit course leading to the Honors designation on transcript. To earn the "Honors" designation,
the student must have a GPA of 3.0 or above and receive a B or better in the corresponding intro-level physics course.

Corequisite: PHYS 1303, 1304, 1307, or 1308.

**1105 General Physics Laboratory - Mechanics** One three-hour laboratory period per week.

**1106 General Physics Laboratory - Electricity and Magnetism** One three-hour laboratory period per week.

Prerequisite: PHYS 1105 or self-test.

**1301 The Ideas of Modern Physics** Presents cosmology, relativity, quantum mechanics and particle physics in an essentially descriptive, nonmathematical framework accessible to all SMU students.

Fulfills a requirement for
Laboratory Science.

Prerequisite: None.

**1303 Introductory Mechanics** For science and engineering majors. Covers vector kinematics, Newtonian mechanics, oscillations, gravitation, rotational motion.

If you require a one-credit laboratory
with this course, you must register separately for PHYS 1105.

Prerequisite or corequisite: MATH 1337.

**1304 Introductory Electricity and Magnetism** For science and engineering majors. Covers electricity, magnetism, electromagnetic radiation, and optics.

If you require a one-credit laboratory with this course,
you must register separately for PHYS 1106.

Prerequisite: PHYS 1303. Prerequisite or corequisite: MATH 1338 or 1340.

**1307 General Physics I (Mechanics)** For life science majors. Covers vector kinematics, Newtonian mechanics, oscillations, rotational motion, waves and fluids.

If you require a one-credit laboratory with this course,
you must register separately for PHYS 1105.

Prerequisite or corequiste: MATH 1337.

**1308 General Physics II (Electricity and Magnetism)** For life science majors. Covers electricity, magnetism, electromagnetic radiation, geometrical and physical optics.

If you require a one-credit laboratory with this course, you must register separately for PHYS 1106.

Prerequisite: PHYS 1307 or PHYS 1303, MATH 1337 or 1340.

**1311 Elements of Astronomy** Descriptive survey of Astronomy from the Sun and planets to the outer galaxies. Associated laboratory provides experience in making measurements and working with real astronomical data.

Fulfills
a requirement for Laboratory Science.

Prerequisite: High school algebra.

**1320 Musical Acoustics** Covers both the acoustics (physical sound properties) and the psycho-acoustics (psychological, perceptual properties) of music. Topics include sound in general, sound of musical instruments (including
voice), sound characteristics of rooms, electronic production (synthesis), and reproduction of sound.

No prior knowledge of physics is assumed. While this course requires no previous formal training in music theory, it is helpful if students have a basic understanding of musical scales and notation.

Fulfills a requirement for Laboratory Science.

Prerequisite: None.

**3305 Introduction to Modern Physics** Special relativity and introductory quantum mechanics. Schrödinger equation, statistical physics, elementary particle physics, special topics.

Prerequisite: PHYS 1304 or PHYS 1308.

**3310 Waves and Relativity** One dimensional harmonic oscillator, coupled oscillators, longitudinal and transverse waves, sound and electromagnetic waves, interference and diffraction, Lorentz transforms and invariants, time dilation,
length contraction, equivalence principle and black holes.

Prerequisite: MATH 3302 (Calculus III), Pre or Corequisite: PHYS 3305 and MATH 3313 (Differential Equations)

**3320 Physics of Music** Covers the acoustics (physical sound properties) of music. Topics include sound in general, sound of musical instruments, acoustics, electronic synthesis, Fourier transforms, interference, diffraction,
resonance.

Prerequisites: PHYS 1303, PHYS 1304 or equivalent.
PHYS 3344 recommended.

**3333 (KNW 2333, CFB 3333) The Scientific Method (Debunking Pseudoscience)** This course provides students with an understanding of the scientific method sufficient to detect pseudoscience in its many guises: paranormal phenomena;
free-energy devices; alternative medicine; intelligent-design creationism; and many others.

Prerequisite: None.

**3340 Computational Physics** Introduction to the modeling of physical systems. Emphasis is on algorithm selection and implementation for simulating classical and quantum physics.

Prerequisite: PHYS 3305. Prerequisite or corequisite MATH 3313 (Differential Equations). Prior programming experience recommended.

**3344 Classical Mechanics** The motion of a particle and of systems of particles, including oscillatory systems, accelerated coordinate systems, central-force motion, rigid-body dynamics, gravitation, and Lagrangian mechanics.

Prerequisites: PHYS 1303 or PHYS 1307. Prerequisite or corequisite MATH 3302 (Calculus III).

**3368 Principles of Astrophysics and Cosmology** Cosmic distance scales, physics of stars, expansion of the Universe, cosmic nucleo-synthesis, selected other topics as appropriate.

Prerequisite: PHYS 3305.

**3374 Thermodynamics and Statistical Mechanics** Basic concepts of thermodynamics and statistical mechanics with emphasis on quantum statistics. The laws of thermodynamics, entropy, Maxwell-Boltzmann, Bose-Einstein, and Fermi-Dirac
statistics.

Prerequisite: PHYS 3305. MATH 3313 recommended.

**4211 Laboratory Physics I** Introduction to experimental physics. Approximately one experiment per week. One three-hour laboratory period per week.

Prerequisite: PHYS 1105, 1106, and PHYS 3305.

**4112 Laboratory Physics II** Intermediate level experimental physics. Approximately one experiment per week. One three-hour laboratory period per week.

Corequisite: PHYS 4211.

**4190, 4290, 4390 Special Projects in Physics** Directed study of special topics. For physics majors only.

Prerequisite: Junior or senior classification and permission of the department.

**4321 Methods of Theoretical Physics** Matrices, determinants, linear algebra, complex variables, inhomogeneous equations, Sturm-Liouville theory, partial differential equations, special functions, Fourier series and integral
transforms, integral equations, calculus of variations, applications.

Prerequisite or corequisite: MATH 3302 (Calculus III), MATH 3313 (Differential Equations).

**4375 Research** For physics majors. Students will participate in physics research with a member of the Faculty of the Department of Physics.

Prerequisite: Permission of instructor.

**4392 Introduction to Electromagnetic Theory** Fundamental principles of electrodynamics, including electrostatics, magnetostatics, electric potential, electric and magnetic fields in matter, simple behavior of time-dependent electric amd magnetic fields, and Maxwell's equations.

Prerequisites:PHYS 1304, MATH 3302, MATH 3313. PHYS 4321 recommended.

**5337 Introduction to Solid State Physics** Crystal lattices and the reciprocal lattice. The free-election model of metals. Crystal binding. Lattice vibrations-phonons. Thermal properties of solids. Energy bands in solids.

Prerequisites: PHYS 3305, PHYS 3344.

**5368 Foundations of Modern Cosmology** Principles and concepts of modern cosmology including the geometry of the universe, cosmological models, nucleosynthesis, inflation, dark energy, dark matter, the cosmic microwave background
and baryonic acoustic oscillations.

Prerequisite: PHYS 3305, MATH 3303, and MATH 3313 or permission of the instructor.

**5380 Concepts of Experimental Particle Physics** Principles of elementary particle physics and the experiments by which we learn laws obeyed by these particles, with reading of scientific articles.

Prerequisite: PHYS 3305 or equivalent;
PHYS 5382 recommended.

**5382 Introduction to Quantum Mechanics**
A study of the development of quantum mechanics and its role in atomic
theory, including applications to one-dimensional problems, free particles,
the hydrogen atom, and the spinning electron.

Prerequisites: PHYS 3305 and either PHYS 4321 or MATH 3304.

**5383 Advanced Quantum Physics**
Brief review of modern physics; fine and hyperfine structure; multielectron
atoms; molecular physics; lasers, optical resonance, and spectroscopy.

Prerequisite: PHYS 5382 or consent of instructor.

**5384 Quantum Physics II**
Quantum statistics; band theory of solids; superconductivity, magnetism, and
critical phenomena; nuclear physics; physics of elementary particles.

Prerequisite: PHYS 5383 or consent of instructor.

**5393 Electromagnetic Waves and Optics**
Theory and applications of electromagnetic wave radiation, propagation, and
scattering. Geometrical and physical optics. Guided waves. Lasers. Coherent
optics, interferometry, and holography.

Prerequisite: PHYS 4392, equivalent, or permission of the
instructor.

**5395 Introduction to Elementary Particles**
Modern theories of elementary particles including relativistic kinematics,
Feynman diagrams, quantum electrodynamics, quarks, weak interaction, and
gauge theories.

Prerequisite: PHYS 5383.

**5398 Applications of Quantum Mechanics**
The principles of quantum theory are used in a study of radiative transition
in atoms and molecules, quantum statics, band theory or solids, semiconductor
theory, and laser physics.

Prerequisite: PHYS 5382 or equivalent.

**6321 Classical Mechanics**
Topics in classical mechanics including the mechanics of a system particles,
the two-body central-force problem, Lagrange's and Hamilton's formulations,
special theory or relativity, Hamilton-Jacobi theory, continuous system and
fields.

**6332 Physical Properties of Materials**
Electric, magnetic, transport, optical and elastic
properties. Piezoelectricity. Electromagnetic and elastic wave
propagation. Methods of materials characterization and nondestructive
evaluation.

**6335 Quantum Mechanics I**
Fundamental principles of quantum theory with applications to one-dimensional
problems, the free particle, and the hydrogen atom; the spinning
electron. Perturbation theory with applications to atomic spectra; systems of
identical particles; scattering theory; Dirac theory of the electron.

Prerequisite: PHYS 5382 or equivalent, MATH 3333.

**6336 Quantum Mechanics II**
Fundamental principles of quantum theory with applications to one-dimensional
problems, the free particle, and the hydrogen atom; the spinning
electron. Perturbation theory with applications to atomic spectra; systems of
identical particles; scattering theory; Dirac theory of the electron.

Prerequisite: PHYS 6335.

**6338 Condensed Matter Physics**
Plasmons, polaritons, and polarons. Optical properties of
solids. Superconductivity. Atomic and collective magnetism. Atomic and
collective electrical phenomena.

Prerequisite: PHYS 5337 or consent of instructor.

**6341 Nuclear Physics**
General properties of the nucleus; the two nucleon problem; radioactivity;
beta decay; interaction of charged particles and radiation with matter;
detection methods; nuclear models; nuclear reactions; neutron physics.

Prerequisite: PHYS 6335 or consent of instructor.

**6351 Statistical Mechanics**
Derivation of classical and quantum statistical distribution functions;
partition functions; the laws of thermodynamics; ensemble theory; application
to gases and solids.

Prerequisite: PHYS 3374 or consent of instructor.

**6361 Selected Topics in Physics**

**7170 Current Topics in Physics**
Seminar course on current topics in Physics.

**7305 Methods of Theoretical Physics**
Mathematical methods; theory of analytic functions; evaluation of integrals,
linear vector spaces, special functions, integral equations, tensor analysis,
calculus of vibrations, group theory.

Prerequisite: Working knowledge of complex variable, Fourier transforms, and
partial differential equations.

**7311 Electromagnetic Theory I**
Boundary-value problems in electrostatics; dielectrics; magnetic media;
Maxwell's equations; electromagnetic waves; refraction and reflection; wave
guide and cavities.

Prerequisite: PHYS 5393 or consent of instructor.

**7312 Electromagnetic Theory II**
Electromagnetic radiation; diffraction and interference;
plasma physics; special relativity; dynamics of charged particles; multipole
expansion.

Prerequisite: PHYS 7311 or consent of instructor.

**7314 Quantum Field Theory I**
Classical fields; symmetry transformations and conservation laws; the quantum
theory of radiation; relativistic quantum mechanics of spin -1/2 particles,
second quantization and the theory of interaction fields. Covariant
perturbation theory; collision phenomena in quantum electrodynamics;
renormalization.

Prerequisite: PHYS 6336.

**7315 Quantum Field Theory II**
Path integral formulation; renormalization group; symmetry structure; formal
aspects; nonabelian gauge theories.

Prerequisite: PHYS 7314 or consent of instructor.

**7321 Atomic Physics**
The central-field model of atomic structure, the Hartree methods, angular
momentum and the vector model of the atom; antisymmetry and the determinantal
method; theory of multiplets; magnetic properties of atoms.

Prerequisite: PHYS 6336 or working knowledge of
quantum mechanics and consent of instructor.

**7330 Physics of Quantum Electronics**
Interactions of electromagnetic radiation with atomic systems; absorption and
dispersion, line-broadening mechanisms, amplification. Quantum theory of
light scattering; Rayleigh, Raman, and Brillouin scattering. Theory of
lasers. Coherent pulse propagation. Nonlinear optical processes.

Prerequisite: PHYS 6336 or working knowledge of
quantum mechanics and consent of instructor.

**7341 Theoretical Nuclear Physics**
Properties of nuclear forces; many-body theory of nuclear models; analysis of
scattering experiments. Interaction between nucleons and radiation; pion
physics; weak interactions.

Prerequisite: PHYS 6336 and 6341.

**7350 General Relativity**
Einstein theory; black holes; gravitational waves; cosmology.

Prerequisite: PHYS 6321 or consent of instructor.

**7360 Elementary Particle Physics I**
Physics of the standard model; quarks and leptons; internal symmetries, grand
unified theories.

Prerequisite: PHYS 6321 or consent of instructor.

**7361 Elementary Particles II**
Continues PHYS 7360 with emphasis on current topics.

Prerequisite: PHYS 7360 or consent of instructor.