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Showing 25 course outlines from 9861 matches
6676
PHYSICS 691B
: Postgraduate Diploma Research Project2024 Semester One (1243)
To complete this course students must enrol in PHYSICS 691 A and B, or PHYSICS 691
6677
PHYSICS 691B
: Postgraduate Diploma Research Project2022 Semester One (1223)
To complete this course students must enrol in PHYSICS 691 A and B, or PHYSICS 691
6678
PHYSICS 703
: Advanced Quantum Mechanics2025 Semester One (1253)
An advanced development of nonrelativistic quantum mechanics in the Dirac formulation is presented. Emphasis is placed on the simplicity and generality of the formal structure, lifting the reliance of introductory courses on wave mechanics.
No pre-requisites or restrictions
6679
PHYSICS 703
: Advanced Quantum Mechanics2024 Semester One (1243)
An advanced development of nonrelativistic quantum mechanics in the Dirac formulation is presented. Emphasis is placed on the simplicity and generality of the formal structure, lifting the reliance of introductory courses on wave mechanics.
No pre-requisites or restrictions
6680
PHYSICS 703
: Advanced Quantum Mechanics2023 Semester One (1233)
An advanced development of nonrelativistic quantum mechanics in the Dirac formulation is presented. Emphasis is placed on the simplicity and generality of the formal structure, lifting the reliance of introductory courses on wave mechanics.
No pre-requisites or restrictions
6681
PHYSICS 703
: Advanced Quantum Mechanics2022 Semester One (1223)
An advanced development of nonrelativistic quantum mechanics in the Dirac formulation is presented. Emphasis is placed on the simplicity and generality of the formal structure, lifting the reliance of introductory courses on wave mechanics.
No pre-requisites or restrictions
6682
PHYSICS 703
: Advanced Quantum Mechanics2021 Semester One (1213)
An advanced development of nonrelativistic quantum mechanics in the Dirac formulation is presented. Emphasis is placed on the simplicity and generality of the formal structure, lifting the reliance of introductory courses on wave mechanics.
No pre-requisites or restrictions
6683
PHYSICS 715
: Directed Study2025 Semester One (1253)
Enrolment requires approval of the Head of Department and the choice of subject will depend on staff availability or on the needs of particular students.
Prerequisite: Departmental approval
6684
PHYSICS 715
: Directed Study2024 Semester One (1243)
Enrolment requires approval of the Head of Department and the choice of subject will depend on staff availability or on the needs of particular students.
Prerequisite: Departmental approval
6685
PHYSICS 715
: Directed Study2023 Semester One (1233)
Enrolment requires approval of the Head of Department and the choice of subject will depend on staff availability or on the needs of particular students.
Prerequisite: Departmental approval
6686
PHYSICS 715
: Directed Study2022 Semester One (1223)
Enrolment requires approval of the Head of Department and the choice of subject will depend on staff availability or on the needs of particular students.
Prerequisite: Departmental approval
6687
PHYSICS 715
: Directed Study2021 Semester One (1213)
Enrolment requires approval of the Head of Department and the choice of subject will depend on staff availability or on the needs of particular students.
Prerequisite: Departmental approval
6688
PHYSICS 741
: Advanced Classical Mechanics and Electrodynamics2025 Semester One (1253)
Develops and deepens students’ knowledge and understanding of 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.
Restriction: PHYSICS 331, 705
6689
PHYSICS 741
: Advanced Classical Mechanics and Electrodynamics2024 Semester One (1243)
Develops and deepens students’ knowledge and understanding of 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.
Restriction: PHYSICS 331, 705
6690
PHYSICS 741
: Advanced Classical Mechanics and Electrodynamics2023 Semester One (1233)
Develops and deepens students’ knowledge and understanding of 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.
Restriction: PHYSICS 331, 705
6691
PHYSICS 741
: Advanced Classical Mechanics and Electrodynamics2022 Semester One (1223)
Develops and deepens students’ knowledge and understanding of 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.
Restriction: PHYSICS 331, 705
6692
PHYSICS 741
: Advanced Classical Mechanics and Electrodynamics2020 Semester One (1203)
Develops and deepens students’ knowledge and understanding of 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.
Restriction: PHYSICS 331, 705
6693
PHYSICS 742
: Advanced Statistical Mechanics and Condensed Matter2025 Semester One (1253)
Advanced concepts in statistical mechanics and condensed matter. Topics to be covered include the theory of magnetism, mean field theory, the Ising model, superconductivity, phase transitions, complex systems, and networks.
Restriction: PHYSICS 708
6694
PHYSICS 742
: Advanced Statistical Mechanics and Condensed Matter2024 Semester One (1243)
Advanced concepts in statistical mechanics and condensed matter. Topics to be covered include the theory of magnetism, mean field theory, the Ising model, superconductivity, phase transitions, complex systems, and networks.
Restriction: PHYSICS 708
6695
PHYSICS 742
: Advanced Statistical Mechanics and Condensed Matter2023 Semester One (1233)
Advanced concepts in statistical mechanics and condensed matter. Topics to be covered include the theory of magnetism, mean field theory, the Ising model, superconductivity, phase transitions, complex systems, and networks.
Restriction: PHYSICS 708
6696
PHYSICS 742
: Advanced Statistical Mechanics and Condensed Matter2022 Semester One (1223)
Advanced concepts in statistical mechanics and condensed matter. Topics to be covered include the theory of magnetism, mean field theory, the Ising model, superconductivity, phase transitions, complex systems, and networks.
Restriction: PHYSICS 708
6697
PHYSICS 742
: Advanced Statistical Mechanics and Condensed Matter2021 Semester One (1213)
Advanced concepts in statistical mechanics and condensed matter. Topics to be covered include the theory of magnetism, mean field theory, the Ising model, superconductivity, phase transitions, complex systems, and networks.
Restriction: PHYSICS 708
6698
PHYSICS 743
: Waves and Potentials2025 Semester One (1253)
Presents the universal mathematical physics of waves and potential fields and discusses related applications. Topics include derivations and solutions for electromagnetic and elastic wave equations, propagation of waves in media, reflection and transmission of waves at interfaces, guided waves in geophysics and optics, and fundamentals of potential theory.
No pre-requisites or restrictions
6699
PHYSICS 743
: Waves and Potentials2024 Semester One (1243)
Presents the universal mathematical physics of waves and potential fields and discusses related applications. Topics include derivations and solutions for electromagnetic and elastic wave equations, propagation of waves in media, reflection and transmission of waves at interfaces, guided waves in geophysics and optics, and fundamentals of potential theory.
No pre-requisites or restrictions
6700
PHYSICS 743
: Waves and Potentials2023 Semester One (1233)
Presents the universal mathematical physics of waves and potential fields and discusses related applications. Topics include derivations and solutions for electromagnetic and elastic wave equations, propagation of waves in media, reflection and transmission of waves at interfaces, guided waves in geophysics and optics, and fundamentals of potential theory.
No pre-requisites or restrictions
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