Undergraduate Course: Nuclear Physics (PHYS11041)
Course Outline
School | School of Physics and Astronomy |
College | College of Science and Engineering |
Credit level (Normal year taken) | SCQF Level 11 (Year 4 Undergraduate) |
Availability | Available to all students |
SCQF Credits | 10 |
ECTS Credits | 5 |
Summary | The course will build on the Subatomic Physics course by further exploring the fundamentals of nuclear matter as well as considering some of the most important applications of nuclear physics. Topics to be studied will include decay modes, nuclear reactions, and interactions between radiation and matter. The lecture course will be integrated with problem solving classes. |
Course description |
Alpha decay:
Energetics. Tunneling effect and probability. Geiger-Nuttall plot. Transition rates and selection rules.
Beta decay:
Electron and positron spectra. (Neutrino mass). Kurie plot. Fermi theory of beta decay. Fermi and Gamow-Teller interactions. Transition rates and selection rules. Electron capture. Neutrinos. Parity violation in beta decay.
Gamma decay:
Energetics. Weisskopf units. Transition rates and selection rules. Angular distribution measurements. Internal conversion.
Nuclear reactions:
Nomenclature and general features. Conservation laws. Reference frames and transformation laws. Cross section. Energy spectra. Angular distributions. Elastic scattering. Direct reactions. Compound nucleus reactions. (Heavy-ion reactions).
Nuclear physics applications:
Sources of radiation and their interaction with matter: charged particles, gamma rays, neutrons. Bethe-Bloch formula. Bragg curve. Particle range. Photo-electric effect, Compton scattering, pair production. Neutron scattering and moderation. Radiation detection and measurement. Examples of practical applications.
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Information for Visiting Students
Pre-requisites | None |
High Demand Course? |
Yes |
Course Delivery Information
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Academic year 2017/18, Available to all students (SV1)
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Quota: None |
Course Start |
Semester 2 |
Timetable |
Timetable |
Learning and Teaching activities (Further Info) |
Total Hours:
100
(
Lecture Hours 22,
Supervised Practical/Workshop/Studio Hours 22,
Formative Assessment Hours 10,
Summative Assessment Hours 2,
Revision Session Hours 2,
Programme Level Learning and Teaching Hours 2,
Directed Learning and Independent Learning Hours
40 )
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Assessment (Further Info) |
Written Exam
100 %,
Coursework
0 %,
Practical Exam
0 %
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Additional Information (Assessment) |
Degree Examination, 100% |
Feedback |
Not entered |
Exam Information |
Exam Diet |
Paper Name |
Hours & Minutes |
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Main Exam Diet S2 (April/May) | Nuclear Physics | 2:00 | |
Learning Outcomes
On completion of this course, the student will be able to:
- Identify basic nuclear phenomena and outline their theoretical descriptions
- Apply learned concepts to the calculation of key nuclear parameters
- Manage to solve problems similar to those discussed in workshops
- Produce clear and effective essays on the main topics covered
- Develop critical thinking and independent learning while working as part of a group
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Reading List
Course material will be made available in Learn |
Contacts
Course organiser | Dr Marialuisa Aliotta
Tel: (0131 6)50 5288
Email: |
Course secretary | Miss Yolanda Zapata-Perez
Tel: (0131 6)51 7067
Email: |
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© Copyright 2017 The University of Edinburgh - 6 February 2017 9:18 pm
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