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PHYS 100 - Introduction to Physics I |

This course is the first part of an algebra-based introductory physics course sequence for majors in life and environmental sciences. Topics include physics and measurement, the laws of motion, applications of Newton’s second law, work and energy, linear momentum and collisions, static equilibrium, elasticity, law of universal gravitation, laws of thermodynamics, fluid mechanics, and sound waves.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial All Sections for this Course |

PHYS 101 - Introduction to Physics II |

Second part of an algebra-based introductory physics course for majors in life sciences. Covers: electric charge, electric field, electric potential, DC circuits, magnetic field, sources of magnetic fields, magnetic induction, electromagnetic waves, geometrical optics, elements of modern physics.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial All Sections for this Course |

PHYS 110 - Introductory Physics I: Mechanics |

First part of the calculus-based introductory physics course for majors in physical and mathematical sciences. Covers: Vectors, measurement, motion in one and two dimensions, the laws of motion, application of Newton's laws, work and energy, potential energy, conservation of energy, linear momentum and collisions, rotation of rigid bodies, rolling motion, angular momentum, static equilibrium, elasticity, law of universal gravitation, elements of thermodynamics.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial |

PHYS 111 - Introductory Physics II: Waves and Electricity |

Second part of the calculus-based introductory physics course for majors in physical and mathematical sciences, including oscillatory motion, wave motion, sound waves, superposition and standing waves, electric field, Gauss's law, electric potential, capacitance and dielectrics, current and resistance, DC circuits, magnetic fields, sources of magnetic fields.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial All Sections for this Course |

PHYS 115 - General Introduction to Physics |

This is an algebra-based introductory physics course for students without Grade 12 Physics. Topics include physics and measurement, the laws of motion and their applications, circular motion, work and energy, electric field, electric potential, DC circuits, magnetic fields and magnetic forces. Students with credit in Physics 12 require permission of the Program Chair.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial |

PHYS 150 - Physics for Future Leaders |

This course examines the physics underlying major technological aspects of modern society and issues of global concern. Through addressing themes such as global warming, the energy problem and alternative sources of energy, nuclear power and nuclear weapons, health and medical technology, pollution of the atmosphere, satellites, telecommunication, and the internet, this course introduces basic physics topics such as motion and energy, atoms and heat, gravity and force, electricity and magnetism, light and electromagnetic waves, radioactivity and nuclear reactions, quantum physics, and relativity. This course requires no scientific or mathematical background and is accessible to students in any discipline.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam |

PHYS 200 - Thermal Physics |

Thermodynamics and introductory statistical mechanics, including temperature, reversible processes and work, first law of thermodynamics, second law of thermodynamics, entropy thermodynamic potentials, change of phase, chemical potentials, third law of thermodynamics, kinetic theory of gases.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam |

PHYS 202 - Electromagnetism and Optics |

Magnetic field, Ampere's law, Faraday's law, inductance, magnetism and matter, electromagnetic oscillations, alternating currents, Maxwell's equations, electromagnetic waves, geometrical optics, interference, diffraction.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory |

PHYS 205 - Modern Physics I |

This is the first part of a two-semester course in modern physics, providing an introduction to the theories of quantum mechanics and their applications. Topics include foundations of quantum theory, the quantum theory of light, the particle and wave nature of matter, the Schrodinger equation in one and three dimensions, tunneling phenomena, atomic structure and spectroscopy, and molecules and molecular spectroscopy.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial |

PHYS 206 - Modern Physics II |

Ths is the second part of a two-semester course in modern physics, providing an introduction to the theories of quantum mechanices and relativity and their applications. Topics include Lorentz transformations, relativistic kinematics, relativistic dynamics, statistical physics, the solid state of matter, structure of crystals, semiconductors and superconductors, nuclear structure, radioactivity, nuclear reactions, applications of nuclear physics, elementary particles, and elements of cosmology.
Credits: 0.000 OR 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial All Sections for this Course |

PHYS 298 - Special Topics in Physics |

The content of this course varies according to the instructor and student requests. This course may be repeated, to a maximum of 6 credit hours if the material is substantially different.
Credits: 3.000 TO 6.000 Levels: Undergraduate Schedule Types: Lecture |

PHYS 300 - Classical Mechanics |

Analytical classical mechanics, including Newtonian mechanics, motion in non-inertial frames, Lagrangian dynamics, central-force motion, motion of rigid bodies, small oscillations, coupled oscillations, Hamiltonian dynamics.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Tutorial |

PHYS 302 - Quantum Mechanics I |

Breakdown of classical mechanics, wave packets, wave- particle duality, wave function and Schrodinger equation, eigenvalues and eigenfunctions, harmonic oscillatory, potential wells, potential barriers, central force problems, hydrogen atom, spin and angular momentum, time dependence of quantum states.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Tutorial |

PHYS 305 - Electronics |

Basics of electric and electronic circuits, including DC Circuits, Kirchoff's laws, Thevenin's and Norton's theorems, AC circuits, operational amplifiers, diodes, transistors, gates, combinational and sequential logic, filters, oscillators, control systems, digital circuits.
Credits: 0.000 TO 4.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory |

PHYS 310 - Classical Electromagnetism I |

First part of a two-semester course in electrodynamics: the electric field and the scalar potential; Coulomb's and Guass's Laws; Poisson's and Laplace's equations; boundary-value problems in electrostatics; electric multipoles; electric energy and forces; dielectric materials and continuity conditions; the magnetic field and the vector potential; Ampere's law; magnetic materials; magnetic energy and forces.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Self-Directed, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial |

PHYS 351 - Optics and Photonics I |

Geometrical and physical optics: mathematics of wave motion, electromagnetic theory of light, photons, laws of geometrical optics, abberations in optical systems, optical instruments, supposition of waves, interference, polarization, diffraction, Fourier optics, holography.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Self-Directed, Final Exam, World Wide Web |

PHYS 400 - Quantum Mechanics II |

Continuation of Quantum Mechanics I. Covers: matrix formulation, perturbation theory, approximation methods, scattering theory, many-particle problems, identical particles, spin and statistics, atomic and molecular systems.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Tutorial |

PHYS 401 - Seminar on Contemporary Topics in Physics |

Special topics from current areas of research in basic and applied physics.
Credits: 3.000 Levels: Undergraduate Schedule Types: Final Exam, Seminar |

PHYS 402 - Physics Research Project |

This is an experimental or theoretical research project conducted by the student under the supervision of a faculty member. This course may be repeated to a maximum of 6 credit hours.
Credits: 1.000 TO 6.000 Levels: Undergraduate Schedule Types: Lecture, Self-Directed, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial |

PHYS 404 - Solid State Physics |

This course covers physics of the solid state of matter including: theories of metals, crystal lattices, reciprocal lattice, periodic potentials, electron dynamics, band structures, conduction in metals, phonons in metals, semiconductors, superconductivity and diamagnetism and paramagnetism.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam |

PHYS 406 - Subatomic Physics |

This course covers properties and structure of subatomic particles, symmetries and conservation laws, electromagnetic, weak, and hadronic interactions, beta decay, alpha decay, gamma decay, models of nuclear reactions, fission, fusion, quarks and hadron spectroscopy.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam |

PHYS 407 - Statistical Mechanics |

This course covers kinetic theory of gases, laws of thermodynamics, probability theory, probability distributions, equilibrium statistical ensembles, ideal gases, phase transitions, critical phenomena and quantum statistics.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Self-Directed, Final Exam |

PHYS 409 - Mathematical Methods in Physics |

This course surveys the methods and techniques involved in the formulation and solutions of physics problems. Topics include matrix algebra and group theory, eigenvalue problems, differential equations, functions of a complex variable, Green's functions, Fourier series, integral equations, calculus of variations, and tensor analysis.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Tutorial |

PHYS 410 - Classical Electromagnetism II |

Second part of a two-semester course in electrodynamics; Faraday's induction law; inductance; Maxwell's equations; generation and propagation of electromagnetic waves; plane waves; spherical waves; reflection and refraction; wave guides; electric dipole radiation; magnetic dipole radiation; antennas.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Final Exam, Lec/Lab/Tut Combination, Laboratory, Tutorial |

PHYS 499 - Advanced Topics in Physics |

Topics include a selection of topics from contemporary Physics. This course may be taken more than once for credit provided that different topics are covered.
Credits: 3.000 Levels: Undergraduate Schedule Types: Lecture, Self-Directed, World Wide Web |

PHYS 600 - Quantum Mechanics II |

Continuation of Quantum Mechanics I. Covers: matrix formulation, perturbation theory, approximation methods, scattering theory, many-particle problems, identical particles, spin and statistics, atomic and molecular systems.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture, Final Exam |

PHYS 604 - Solid State Physics |

Physics of the solid state of matter. Covers: theories of metals, crystal lattices, reciprocal lattice, periodic potentials, electron dynamics, band structure, conduction in metals, phonons in metals, semiconductors, diamagnetism and parmagnetism, superconductivity.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture, Final Exam |

PHYS 606 - Subatomic Physics |

Properties and structure of subatomic particles, symmetries and conservation laws, electromagnetic, weak, and hadronic interactions, beta decay, alpha decay, gamma decay, models of nuclear structure, nuclear reactions, fission, fusion, quarks and hadron spectroscopy.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture |

PHYS 607 - Statistical Mechanics |

Kinetic theory of gases, laws of thermodynamics, probability theory, probability distributions, equilibrium statistical ensembles, ideal gases, phase transitions, critical phenomena, quantum statistics.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture, Final Exam |

PHYS 609 - Mathematical Methods in Physics |

This course is a survey of the methods and techniques involved in the formulation and solutions of physics problems. Topics include matrix algebra and group theory, eigenvalue problems, differential equations, functions of a complex variable, Green's functions, special functions, Fourier series, integral equations, calculus of variations, and tensor analysis.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture, Self-Directed, Tutorial |

PHYS 710 - Advanced Quantum Mechanics |

Review of quantum mechanics including operators, linear vector spaces, Dirac notation; density operator; angular momentum, spin, and rotation groups; addition of angular momentum; symmetries and conservation laws; identical particles; time-dependent and time-independent perturbation theory; scattering theory; interaction of radiation with matter; introduction to relativistic quantum mechanics; special topics.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture, Self-Directed |

PHYS 720 - Condensed Matter Physics |

Theory and application of solid state physics to macroscopic and microscopic phenomena in materials. Topics to be chosen from the following: review of crystal lattices, unit cells, reciprocal lattice, Bloch theorem; free and nearly free electron models, tight binding model; band structure and Fermi surfaces, electron dynamics, scattering; metals, semiconductors and insulators; phonons, phonon bandstructure, scattering; diamagnetism, paramagnetism, ferromagnetism, magnetic ordering and scattering; heterostructures, quantum Hall effect; topics in surface physics (surface states, work function, reconstruction); topics in superconductivity (Type I & Type II, flux quantization, Josephson Effect, BCS Theory, high-temperature superconductivity).
Credits: 3.000 Levels: Graduate Schedule Types: Lecture |

PHYS 730 - Advanced Nuclear Physics |

Topics to be chosen from the following: properties of nuclei, the nuclear force and the two-nucleon system; nuclear structure, nuclear models; the collective model; many-body basis states; Hartree-Fock Hamiltonian; spherical and deformed shell model; nuclear excitation and the electromagnetic transition; weak interaction and beta-decay; alpha decay; nuclear fission; thermonuclear fusion; nuclear reactions; compound nucleus formation; direct reactions; the optical model; intermediate energy nucleon-induced reactions; electron- and photon-induced reactions; meson-nucleon and meson-nucleus reactions; heavy-ion reactions.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture |

PHYS 740 - Elementary Particle Physics |

Topics to be chosen from the following: quarks, leptons and the standard model; symmetries and conservation laws; Dirac equation and the Dirac field; gauge invariance and gauge theories -- Quantum Electrodynamics; phenomenology of hadronic interactions, strong interactions, SU(3), and the quark model; other quark flavours -- charm and beauty; principles of Quantum Chromodynamics; the weak interaction and parity non-conversation, invariance under CP and T; the heavy gauge bosons and the electro-weak theory; CP-violation; grand unification, supersymmetry; superstrings, particle physics and cosmology.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture |

PHYS 798 - Advanced Topics in Physics |

This course covers topics of current interest in physics research, which vary from year to year.
Credits: 3.000 Levels: Graduate Schedule Types: Lecture, Self-Directed |