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Showing 25 course outlines from 4473 matches

2476

PHYSICS 309

: Special Study
2023 Semester One (1233)
Directed study on a topic or topics approved by the Academic Head or nominee.
Subject: Physics
No pre-requisites or restrictions
2477

PHYSICS 309

: Special Study
2023 Summer School (1230)
Directed study on a topic or topics approved by the Academic Head or nominee.
Subject: Physics
No pre-requisites or restrictions
2478

PHYSICS 309

: Special Study
2022 Semester Two (1225)
Directed study on a topic or topics approved by the Academic Head or nominee.
Subject: Physics
No pre-requisites or restrictions
2479

PHYSICS 309

: Special Study
2022 Semester One (1223)
Directed study on a topic or topics approved by the Academic Head or nominee.
Subject: Physics
No pre-requisites or restrictions
2480

PHYSICS 309

: Special Study
2022 Summer School (1220)
Directed study on a topic or topics approved by the Academic Head or nominee.
Subject: Physics
No pre-requisites or restrictions
2481

PHYSICS 309

: Special Study
2021 Semester Two (1215)
Directed study on a topic or topics approved by the Academic Head or nominee.
Subject: Physics
No pre-requisites or restrictions
2482

PHYSICS 331

: Classical Mechanics and Electrodynamics
2025 Semester One (1253)
Advanced topics in classical mechanics and electromagnetism, including variational and least action principles in mechanics, the physical basis of magnetism, and the four-vector treatment of special relativity and electromagnetism.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 325
2483

PHYSICS 331

: Classical Mechanics and Electrodynamics
2024 Semester One (1243)
Advanced topics in classical mechanics and electromagnetism, including variational and least action principles in mechanics, the physical basis of magnetism, and the four-vector treatment of special relativity and electromagnetism.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 325
2484

PHYSICS 331

: Classical Mechanics and Electrodynamics
2023 Semester One (1233)
Advanced topics in classical mechanics and electromagnetism, including variational and least action principles in mechanics, the physical basis of magnetism, and the four-vector treatment of special relativity and electromagnetism.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 325
2485

PHYSICS 331

: Classical Mechanics and Electrodynamics
2022 Semester One (1223)
Advanced topics in classical mechanics and electromagnetism, including variational and least action principles in mechanics, the physical basis of magnetism, and the four-vector treatment of special relativity and electromagnetism.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 325
2486

PHYSICS 331

: Classical Mechanics and Electrodynamics
2020 Semester One (1203)
Advanced topics in classical mechanics and electromagnetism, including variational and least action principles in mechanics, the physical basis of magnetism, and the four-vector treatment of special relativity and electromagnetism.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231, 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 315, 325
2487

PHYSICS 332

: Fluid Mechanics
2025 Semester One (1253)
Surveys fluid mechanics using the Navier-Stokes equations, covering Newtonian and simple non-Newtonian fluids, and examples from soft condensed matter. Different flow regimes will be studied, from small-scale laminar flows to large-scale turbulent and potential flows, and flows in rotating frames of reference. Applications range from microfluidics to geophysical fluids. Numerical approaches and computational tools will be introduced.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
2488

PHYSICS 332

: Fluid Mechanics
2024 Semester One (1243)
Surveys fluid mechanics using the Navier-Stokes equations, covering Newtonian and simple non-Newtonian fluids, and examples from soft condensed matter. Different flow regimes will be studied, from small-scale laminar flows to large-scale turbulent and potential flows, and flows in rotating frames of reference. Applications range from microfluidics to geophysical fluids. Numerical approaches and computational tools will be introduced.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
2489

PHYSICS 332

: Fluid Mechanics
2023 Semester One (1233)
Surveys fluid mechanics using the Navier-Stokes equations, covering Newtonian and simple non-Newtonian fluids, and examples from soft condensed matter. Different flow regimes will be studied, from small-scale laminar flows to large-scale turbulent and potential flows, and flows in rotating frames of reference. Applications range from microfluidics to geophysical fluids. Numerical approaches and computational tools will be introduced.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
2490

PHYSICS 332

: Fluid Mechanics
2022 Semester One (1223)
Surveys fluid mechanics using the Navier-Stokes equations, covering Newtonian and simple non-Newtonian fluids, and examples from soft condensed matter. Different flow regimes will be studied, from small-scale laminar flows to large-scale turbulent and potential flows, and flows in rotating frames of reference. Applications range from microfluidics to geophysical fluids. Numerical approaches and computational tools will be introduced.
Subject: Physics
Prerequisite: 15 points from PHYSICS 201, 231 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
2491

PHYSICS 333

: Lasers and Electromagnetic Waves
2025 Semester Two (1255)
Surveys the basic principles of lasers and explains how the behaviour and propagation of light can be understood in terms of electromagnetic waves described by Maxwell’s equations. The theory and applications of several key optical components will be described, including lasers and resonators.
Subject: Physics
Prerequisite: 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 326
2492

PHYSICS 333

: Lasers and Electromagnetic Waves
2024 Semester Two (1245)
Surveys the basic principles of lasers and explains how the behaviour and propagation of light can be understood in terms of electromagnetic waves described by Maxwell’s equations. The theory and applications of several key optical components will be described, including lasers and resonators.
Subject: Physics
Prerequisite: 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 326
2493

PHYSICS 333

: Lasers and Electromagnetic Waves
2023 Semester Two (1235)
Surveys the basic principles of lasers and explains how the behaviour and propagation of light can be understood in terms of electromagnetic waves described by Maxwell’s equations. The theory and applications of several key optical components will be described, including lasers and resonators.
Subject: Physics
Prerequisite: 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 326
2494

PHYSICS 333

: Lasers and Electromagnetic Waves
2022 Semester Two (1225)
Surveys the basic principles of lasers and explains how the behaviour and propagation of light can be understood in terms of electromagnetic waves described by Maxwell’s equations. The theory and applications of several key optical components will be described, including lasers and resonators.
Subject: Physics
Prerequisite: 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 326
2495

PHYSICS 333

: Lasers and Electromagnetic Waves
2021 Semester Two (1215)
Surveys the basic principles of lasers and explains how the behaviour and propagation of light can be understood in terms of electromagnetic waves described by Maxwell’s equations. The theory and applications of several key optical components will be described, including lasers and resonators.
Subject: Physics
Prerequisite: 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 326
2496

PHYSICS 333

: Lasers and Electromagnetic Waves
2020 Semester Two (1205)
Surveys the basic principles of lasers and explains how the behaviour and propagation of light can be understood in terms of electromagnetic waves described by Maxwell’s equations. The theory and applications of several key optical components will be described, including lasers and resonators.
Subject: Physics
Prerequisite: 15 points from PHYSICS 202, 261 and 15 points from PHYSICS 211, MATHS 253, 260, ENGSCI 211
Restriction: PHYSICS 326
2497

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
2498

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
2499

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
2500

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