MSci (Hons) Physics with Renewable Energy Science.
Course Overview
This integrated MSci program in Physics with Renewable Energy combines bachelor's and master's level study to provide a deep understanding of fundamental and advanced physics, with a specialized focus on applying this knowledge to the critical global challenge of energy efficiency. You will develop expertise in areas ranging from quantum mechanics to classical physics, culminating in an independent research project dedicated to renewable energy science. The course offers a unique opportunity to engage with cutting-edge research, including potential visits to major international facilities like CERN.
Key Program Highlights
- Integrated Master's program covering advanced physics and specialized renewable energy applications
- Final-year independent research project focused on renewable energy science
- Potential for site visits to major research facilities like the Large Hadron Collider at CERN
- Development of expertise in both classical physics and modern advancements like quantum mechanics
- Vibrant student community with a dedicated Physics Society organizing academic and social events
Course Overview
This integrated MSci program in Physics with Renewable Energy combines bachelor's and master's level study to provide a deep understanding of fundamental and advanced physics, with a specialized focus on applying this knowledge to the critical global challenge of energy efficiency. You will develop expertise in areas ranging from quantum mechanics to classical physics, culminating in an independent research project dedicated to renewable energy science. The course offers a unique opportunity to engage with cutting-edge research, including potential visits to major international facilities like CERN.
Key Program Highlights
- Integrated Master's program covering advanced physics and specialized renewable energy applications
- Final-year independent research project focused on renewable energy science
- Potential for site visits to major research facilities like the Large Hadron Collider at CERN
- Development of expertise in both classical physics and modern advancements like quantum mechanics
- Vibrant student community with a dedicated Physics Society organizing academic and social events
Requirements
Modules
- Mechanics
- Core Mathematics I
- Fundamental Algebra and Calculus
- Core Mathematics II
- Statistics and Probability
- Professional Skills
- Space Physics and Astronomy
- Waves and Mechanics
- Personal Development Planning
- Core Mathematics III
- Core Mathematics IV
- Electromagnetism and Light
- Introduction to Programming
- Classical and Quantum Matter and Radiation
- Fundamental Experimental Physics
- Personal Development Planning
- Quantum Mechanics I
- Electrodynamics I
- Mathematical Methods for Physics
- Optics and Photonics
- Advanced Experimental Physics
- Quantum Mechanics II - Atoms and Molecules
- Classical Mechanics and Relativity
- Power Engineering and the Grid
- Physics Project
- Optics and Photonics I
- Condensed Matter Physics I
- Nuclear and Particle Physics
- Classical Mechanics and Relativity
- Solar Energy
- Wind and Marine Energy
- Mathematical Statistics
- Independent Investigations
- Physics Research Project II (MSci)
- Machine Learning for Scientists
- Statistical Physics
