Fusion Energy
Physical Sciences
Taught
MSc
Fusion Energy
Taught
MSc
Overview
Application Timeline
Tuition
- Year 1
| Student categories | Study | |
|---|---|---|
| Full-time | Part-time | |
| England | £13,300 | £13,300 |
| Northern Ireland | £13,300 | £13,300 |
| Scotland | £13,300 | £13,300 |
| Wales | £13,300 | £13,300 |
| Channel Islands | £13,300 | £13,300 |
| Republic of Ireland | £13,300 | £13,300 |
| EU | £31,900 | £31,900 |
| International | £31,900 | £31,900 |
Requirements
Language requirements information is currently unavailable.
Modules
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About
Course Overview
This course provides a solid foundation in fusion physics and introduces advanced topics, preparing students for a PhD in fusion energy or equipping them with valuable skills for various employment sectors.
Importance of Fusion Energy
Fusion energy presents the potential for a nearly limitless, clean energy source that produces no greenhouse gases.
Main Concepts in Fusion Research
- Magnetic Confinement Fusion (MCF)
- Inertial Confinement Fusion (ICF)
Both concepts will be covered in the MSc course.
Current Developments in Fusion Research
The field is entering a new era with significant projects such as:
- ITER Tokamak - Located
Subject Area Information
Nuclear and particle physics is a specialized branch of physics that delves into the fundamental constituents of matter and the forces that govern their interactions. This discipline is pivotal for understanding the universe at the most elementary level, from the behavior of subatomic particles to the mechanisms powering stars.
1. Introduction to Nuclear Physics
2. Particle Physics
3. Quantum Mechanics
4. Statistical Mechanics and Thermodynamics
5. Advanced Nuclear Physics
6. Experimental Methods in Nuclear and Particle Physics
- Analytical Skills
- Experimental Skills
- Data Analysis
- Critical Thinking
- Technical Communication
Career
Graduates with a degree in nuclear and particle physics have a wide array of career opportunities, including research in academic institutions, government laboratories, or private industry, as well as applications in medical physics and data analysis.
Research Scientist
Conducting research in academic institutions, government laboratories, or private industry.
Nuclear Engineer
Working in the design, development, and maintenance of nuclear reactors and other nuclear technologies.
Medical Physicist
Applying principles of nuclear physics in medical imaging and radiation therapy.
Data Analyst
Utilizing data analysis skills in various industries, including finance and technology.
Academic Professor
Teaching and conducting research at universities and colleges.
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