The objective of the atomic physics part of this course is to provide a comprehensive introduction to atomic structure allowing you to understand atomic spectra, the behaviour of angular momentum in quantum mechanical systems, and many-electron atoms. The nuclear and particle physics will develop your understanding of the period table of elements, nuclear mass formulae, models for nuclei and their transformations. In particle physics you will learn the standard model and the classification of particles. In the nuclear astrophysics you will learn the origin of the elements from the big-bang to nucleosynthesis in stars. In all areas you will be expected to use the mathematical framework by which quantitative problems in these areas can be solved. There is both a theory and a practical (laboratory) component to this course. Applications of physical principles in daily life and technology are kept in mind at all appropriate
points in the course. Students are encouraged to develop their conceptual thinking ability, and to practice approximating real situations by simpler physical/mathematical models.
|Atomic and Nuclear Physics
|College of Sciences and Engineering
School of Natural Sciences
|Doctor Ross Turner
|Available as an elective?
|University of Tasmania
- International students
- Domestic students
* The Final WW Date is the final date from which you can withdraw from the unit without academic penalty, however you will still incur a financial liability (refer to How do I withdraw from a unit? for more information).
Unit census dates currently displaying for 2022 are indicative and subject to change. Finalised census dates for 2022 will be available from the 1st October 2021. Note census date cutoff is 11.59pm AEST (AEDT during October to March).
- Apply physical principles in a broad range of contexts and understand the underlying assumptions and limitations of physical theories to solve problems in atomic, nuclear, and particle physics.
- Analyse evidence for and against different theories of atomic, nuclear, and particle physics, and from this formulate and evaluate further tests.
- Manage and use relevant information from a range of sources, and communicate scientific knowledge in atomic, nuclear, and particle physics orally, graphically, and numerically.
- Work both cooperatively and independently, and understand that applications of physics may have important social & ethical implications.
|Field of Education
|Commencing Student Contribution 1,3
|Grandfathered Student Contribution 1,3
|Approved Pathway Course Student Contribution 2,3
|Domestic Full Fee 4
1 Please refer to more information on student contribution amounts.
2 Please refer to more information on eligibility and Approved Pathway courses.
3 Please refer to more information on eligibility for HECS-HELP.
4 Please refer to more information on eligibility for FEE-HELP.
Please note: international students should refer to What is an indicative Fee? to get an indicative course cost.
PrerequisitesAdmission into a Masters course OR KYA211 Waves and Kinetic Theory AND KYA212 Electromagnetism and Thermodynamics AND KMA252 Calculus and Applications 2
3x 50min/week face to face guided workshops/seminars, 1x 50min/week tutorial (weeks 2-12), ~20 lab hrs total
|Mid-term Test (15%)|Examination (40%)|Weekly Problem Sets (20%)|Laboratory (25%)
|View the lecture timetable | View the full unit timetable
Required readings will be listed in the unit outline prior to the start of classes.
|Booktopia textbook finder
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