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Showing 25 course outlines from 4702 matches

2576

PHYSICS 334

: Statistical Physics and Condensed Matter
2025 Semester One (1253)
Covers statistical physics and condensed matter physics, and describes how macroscopic properties of physical systems arise from microscopic dynamics. Topics in statistical physics include temperature, the partition function and connections with classical thermodynamics. Topics in condensed matter physics include crystal structures, phonons, electronic band theory, and semiconductors.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 354
2577

PHYSICS 334

: Statistical Physics and Condensed Matter
2024 Semester One (1243)
Covers statistical physics and condensed matter physics, and describes how macroscopic properties of physical systems arise from microscopic dynamics. Topics in statistical physics include temperature, the partition function and connections with classical thermodynamics. Topics in condensed matter physics include crystal structures, phonons, electronic band theory, and semiconductors.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 354
2578

PHYSICS 334

: Statistical Physics and Condensed Matter
2023 Semester One (1233)
Covers statistical physics and condensed matter physics, and describes how macroscopic properties of physical systems arise from microscopic dynamics. Topics in statistical physics include temperature, the partition function and connections with classical thermodynamics. Topics in condensed matter physics include crystal structures, phonons, electronic band theory, and semiconductors.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 354
2579

PHYSICS 334

: Statistical Physics and Condensed Matter
2022 Semester One (1223)
Covers statistical physics and condensed matter physics, and describes how macroscopic properties of physical systems arise from microscopic dynamics. Topics in statistical physics include temperature, the partition function and connections with classical thermodynamics. Topics in condensed matter physics include crystal structures, phonons, electronic band theory, and semiconductors.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 354
2580

PHYSICS 335

: Quantum Mechanics
2025 Semester Two (1255)
Develops non-relativistic quantum mechanics with applications to the physics of atoms and molecules and to quantum information theory. Topics include the Stern-Gerlach effect, spin-orbit coupling, Bell’s inequalities, interactions of atoms with light, and the interactions of identical particles.
Subject: Physics
Prerequisite: 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 350
2581

PHYSICS 335

: Quantum Mechanics
2024 Semester Two (1245)
Develops non-relativistic quantum mechanics with applications to the physics of atoms and molecules and to quantum information theory. Topics include the Stern-Gerlach effect, spin-orbit coupling, Bell’s inequalities, interactions of atoms with light, and the interactions of identical particles.
Subject: Physics
Prerequisite: 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 350
2582

PHYSICS 335

: Quantum Mechanics
2023 Semester Two (1235)
Develops non-relativistic quantum mechanics with applications to the physics of atoms and molecules and to quantum information theory. Topics include the Stern-Gerlach effect, spin-orbit coupling, Bell’s inequalities, interactions of atoms with light, and the interactions of identical particles.
Subject: Physics
Prerequisite: 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 350
2583

PHYSICS 335

: Quantum Mechanics
2022 Semester Two (1225)
Develops non-relativistic quantum mechanics with applications to the physics of atoms and molecules and to quantum information theory. Topics include the Stern-Gerlach effect, spin-orbit coupling, Bell’s inequalities, interactions of atoms with light, and the interactions of identical particles.
Subject: Physics
Prerequisite: 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 350
2584

PHYSICS 335

: Quantum Mechanics
2021 Semester Two (1215)
Develops non-relativistic quantum mechanics with applications to the physics of atoms and molecules and to quantum information theory. Topics include the Stern-Gerlach effect, spin-orbit coupling, Bell’s inequalities, interactions of atoms with light, and the interactions of identical particles.
Subject: Physics
Prerequisite: 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 350
2585

PHYSICS 335

: Quantum Mechanics
2020 Semester Two (1205)
Develops non-relativistic quantum mechanics with applications to the physics of atoms and molecules and to quantum information theory. Topics include the Stern-Gerlach effect, spin-orbit coupling, Bell’s inequalities, interactions of atoms with light, and the interactions of identical particles.
Subject: Physics
Prerequisite: 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 350
2586

PHYSICS 340

: Electronics and Signal Processing
2025 Semester One (1253)
Electronics and digital signal processing with a strong emphasis on practical circuit design and data acquisition techniques. Topics will be selected from: linear circuit theory, analytical and numeric network analysis, feedback and oscillation, operational amplifier circuits, Fourier theory, sampling theory, digital filter design, and the fast Fourier transform.
Subject: Physics
Prerequisite: PHYSICS 240 or 244
Restriction: PHYSICS 341 Concurrent enrolment in PHYSICS 390 is recommended
2587

PHYSICS 340

: Electronics and Signal Processing
2024 Semester One (1243)
Electronics and digital signal processing with a strong emphasis on practical circuit design and data acquisition techniques. Topics will be selected from: linear circuit theory, analytical and numeric network analysis, feedback and oscillation, operational amplifier circuits, Fourier theory, sampling theory, digital filter design, and the fast Fourier transform.
Subject: Physics
Prerequisite: PHYSICS 240 or 244
Restriction: PHYSICS 341 Concurrent enrolment in PHYSICS 390 is recommended
2588

PHYSICS 340

: Electronics and Signal Processing
2023 Semester One (1233)
Electronics and digital signal processing with a strong emphasis on practical circuit design and data acquisition techniques. Topics will be selected from: linear circuit theory, analytical and numeric network analysis, feedback and oscillation, operational amplifier circuits, Fourier theory, sampling theory, digital filter design, and the fast Fourier transform.
Subject: Physics
Prerequisite: 15 points from PHYSICS 240, 244 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 341
2589

PHYSICS 340

: Electronics and Signal Processing
2022 Semester One (1223)
Electronics and digital signal processing with a strong emphasis on practical circuit design and data acquisition techniques. Topics will be selected from: linear circuit theory, analytical and numeric network analysis, feedback and oscillation, operational amplifier circuits, Fourier theory, sampling theory, digital filter design, and the fast Fourier transform.
Subject: Physics
Prerequisite: 15 points from PHYSICS 240, 244 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 341
2590

PHYSICS 340

: Electronics and Signal Processing
2021 Semester One (1213)
Electronics and digital signal processing with a strong emphasis on practical circuit design and data acquisition techniques. Topics will be selected from: linear circuit theory, analytical and numeric network analysis, feedback and oscillation, operational amplifier circuits, Fourier theory, sampling theory, digital filter design, and the fast Fourier transform.
Subject: Physics
Prerequisite: 15 points from PHYSICS 240, 244 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 341
2591

PHYSICS 340

: Electronics and Signal Processing
2020 Semester One (1203)
Electronics and digital signal processing with a strong emphasis on practical circuit design and data acquisition techniques. Topics will be selected from: linear circuit theory, analytical and numeric network analysis, feedback and oscillation, operational amplifier circuits, Fourier theory, sampling theory, digital filter design, and the fast Fourier transform.
Subject: Physics
Prerequisite: 15 points from PHYSICS 240, 244 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 341
2592

PHYSICS 356

: Particle Physics and Astrophysics
2025 Semester Two (1255)
Particle physics topics covered will include relativistic dynamics and application to fundamental particle interactions, the properties of strong, weak and electromagnetic interactions and the particle zoo. Astrophysics topics will include some of the following: the Big Bang, "concordance cosmology", redshifts, theories of dark matter, extra-solar planets, stellar evolution, supernovae, gravitational wave sources, nuclear astrophysics and the origin of the elements.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 355
2593

PHYSICS 356

: Particle Physics and Astrophysics
2024 Semester Two (1245)
Particle physics topics covered will include relativistic dynamics and application to fundamental particle interactions, the properties of strong, weak and electromagnetic interactions and the particle zoo. Astrophysics topics will include some of the following: the Big Bang, "concordance cosmology", redshifts, theories of dark matter, extra-solar planets, stellar evolution, supernovae, gravitational wave sources, nuclear astrophysics and the origin of the elements.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 355
2594

PHYSICS 356

: Particle Physics and Astrophysics
2023 Semester Two (1235)
Particle physics topics covered will include relativistic dynamics and application to fundamental particle interactions, the properties of strong, weak and electromagnetic interactions and the particle zoo. Astrophysics topics will include some of the following: the Big Bang, "concordance cosmology", redshifts, theories of dark matter, extra-solar planets, stellar evolution, supernovae, gravitational wave sources, nuclear astrophysics and the origin of the elements.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 355
2595

PHYSICS 356

: Particle Physics and Astrophysics
2022 Semester Two (1225)
Particle physics topics covered will include relativistic dynamics and application to fundamental particle interactions, the properties of strong, weak and electromagnetic interactions and the particle zoo. Astrophysics topics will include some of the following: the Big Bang, "concordance cosmology", redshifts, theories of dark matter, extra-solar planets, stellar evolution, supernovae, gravitational wave sources, nuclear astrophysics and the origin of the elements.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 355
2596

PHYSICS 356

: Particle Physics and Astrophysics
2021 Semester Two (1215)
Particle physics topics covered will include relativistic dynamics and application to fundamental particle interactions, the properties of strong, weak and electromagnetic interactions and the particle zoo. Astrophysics topics will include some of the following: the Big Bang, "concordance cosmology", redshifts, theories of dark matter, extra-solar planets, stellar evolution, supernovae, gravitational wave sources, nuclear astrophysics and the origin of the elements.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 355
2597

PHYSICS 356

: Particle Physics and Astrophysics
2020 Semester Two (1205)
Particle physics topics covered will include relativistic dynamics and application to fundamental particle interactions, the properties of strong, weak and electromagnetic interactions and the particle zoo. Astrophysics topics will include some of the following: the Big Bang, "concordance cosmology", redshifts, theories of dark matter, extra-solar planets, stellar evolution, supernovae, gravitational wave sources, nuclear astrophysics and the origin of the elements.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 203, 251 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211 Concurrent enrolment in PHYSICS 390 is recommended
Restriction: PHYSICS 355
2598

PHYSICS 390

: Experimental Physics
2025 Semester Two (1255)
Covers advanced experimental techniques, giving students choices between a wide range of classic physics experiments and open-ended investigations of physical phenomena.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 202, 203, 231, 240, 244, 251, 261
2599

PHYSICS 390

: Experimental Physics
2025 Semester One (1253)
Covers advanced experimental techniques, giving students choices between a wide range of classic physics experiments and open-ended investigations of physical phenomena.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 202, 203, 231, 240, 244, 251, 261
2600

PHYSICS 390

: Experimental Physics
2024 Semester Two (1245)
Covers advanced experimental techniques, giving students choices between a wide range of classic physics experiments and open-ended investigations of physical phenomena.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 202, 203, 231, 240, 244, 251, 261