The BSc in Astrophysics is a three-year undergraduate degree that covers the core physical and mathematical concepts with a clear focus on our interpretation of the Universe.
The BSc Astrophysics degree covers core physical and mathematical concepts with a clear focus on our interpretation of the Universe. The course is designed to give a thorough education in theoretical aspects of physics and astrophysics and an understanding of observational astronomy.
In your first two years, you will study a core component of physics and astrophysics modules, delivered to you by a range of teaching methods. In your third year you will study advanced astrophysics and astronomy topics in detail, with additional optional modules. You will also undertake an astrophysics research project.
The course aims to prepare you for a career in industrial or academic research and development, education or other sectors which require a practical, numerate and analytical approach to problem solving.
You will be part of a friendly and welcoming department currently housed in the Queen’s Building complex, which contains a wide variety of purpose-built laboratories, lecture theatres and computing facilities.
- The opportunity to learn in a department which has a strong commitment to research and is home to one of the UK’s largest Astronomy research groups
- The involvement of research-active staff in course design and delivery
- Frequent opportunities to conduct practical work in the School’s laboratory facilities
- An emphasis on independent learning
|Next intake||September 2017|
|Accreditations||Institute of Physics (IOP)|
|Typical places available||The School typically has approx 105 places available.|
|Typical applications received||The School typically receives approx 570 applications.|
For detailed entry requirements see the School of Physics & Astronomy admissions criteria pages.
|Typical A level offer||AAA-ABB, must include Physics and Mathematics at A- level. General Studies is not accepted.|
|Typical Welsh Baccalaureate offer||WBQ core will be accepted in lieu of the non Science A-level (at the grades specified above).|
|Typical International Baccalaureate offer||32-34 points with 6 in Higher Level Physics and Maths.|
|Other qualifications||Applications from those offering alternative qualifications are welcome.|
This is a three-year full-time degree. The course includes a carefully chosen balance of core modules, along with some optional modules. Modules are typically worth 10 or 20 credits and you need to earn 120 credits a year.
The modules shown are an example of the typical curriculum and will be reviewed prior to the 2017/18 academic year. The final modules will be published by July 2017.
The range of modules in year one is designed to stimulate your interest in physics while giving you a sound foundation upon which to build in later years. At the end of the first year, you may continue with your original degree choice or choose another of Cardiff’s single honours physics and astronomy degrees.
You will study core modules worth 110 credits and in the Autumn Semester you may take a module on mathematical practice for physical sciences or, if you have an A grade or higher in Mathematics A-level, an alternative 10-credit module.
|Module title||Module code||Credits|
|Mechanics and Matter||PX1121||20 credits|
|Mathematical Methods For Physicists I||PX1122||10 credits|
|Experimental Physics I||PX1123||10 credits|
|The Universe From Particles To Galaxies||PX1124||10 credits|
|Electricity, Magnetism and Waves||PX1221||20 credits|
|Mathematical Methods For Physicists II||PX1222||10 credits|
|Experimental Physics II||PX1223||10 credits|
|Computational Skills For Problem Solving||PX1224||10 credits|
|Planet Earth||PX1227||10 credits|
The second year of the course continues to build on the core physics and astrophysics material. You will also take a 20-credit module called Observational Techniques in Astronomy. This introduces the theory and practice of making and interpreting astronomical observations and provides the necessary skills to undertake your astronomy or astrophysics research project in year three.
|Module title||Module code||Credits|
|The Physics of Fields and Flows||PX2131||20 credits|
|Introductory Quantum Mechanics||PX2132||10 credits|
|Structured Programming||PX2134||10 credits|
|The Sun and Stars||PX2136||10 credits|
|Thermal and Statistical Physics||PX2231||20 credits|
|Synoptic Astrophysics||PX2235||10 credits|
|Introduction to Condensed Matter Physics||PX2236||10 credits|
|Observational Techniques in Astronomy||PX2338||20 credits|
In your third year you will study 80 credits of core modules with a further 20 credits from a selection of optional modules. You will also undertake an independent project of 20 credits on a related topic of astronomy or astrophysics research.
|Module title||Module code||Credits|
|Atomic and Nuclear Physics||PX3141||20 credits|
|Formation and Evolution of Stars||PX3145||10 credits|
|Particle Physics and Special Relativity||PX3241||20 credits|
|Extragalactic Astrophysics||PX3244||10 credits|
|High-Energy Astrophysics||PX3245||10 credits|
|Astrophysics Project||PX3316||20 credits|
|Module title||Module code||Credits|
|Condensed Matter Physics||PX3142||10 credits|
|Computational Physics||PX3143||10 credits|
|Electromagnetic Radiation Detection||PX3144||10 credits|
|Digital Medical Imaging||PX3147||10 credits|
|Acoustics and Studio Sound||PX3148||10 credits|
|Commercialising Innovation||PX3149||10 credits|
|Semiconductor Devices and Applications||PX3242||10 credits|
|Laser Physics and Non-Linear Optics||PX3243||10 credits|
|Theoretical Physics||PX3248||10 credits|
|Statistical Mechanics||PX3249||10 credits|
|Environmental Physics||PX3250||10 credits|
How will I be taught?
Teaching is carried out using a range of techniques, such as traditional lectures, tutorials and laboratory work and computer-based, project-based and skills-based exercises. Physics is a hierarchical discipline so the structure of the course is systematic, building on fundamental understanding.
Exercises are an integral part of all lecture-based modules, and these give you the opportunity to apply your knowledge, increase your critical awareness and enhance your problem-solving skills.
You will undertake weekly laboratory classes in the first two years, to prepare you for an experimental study as part of your year-three project and for your major final-year project.
Mathematics is taught alongside the major Physics and Astrophysics concepts in all years, with specific modules in the first year. It is fundamental to understanding the subject and is incorporated into many physics modules.
Key IT skills are taught throughout the course as well as elementary programming using Python. You may also have the opportunity to take further computing and numerical-methods modules as the course develops.
Regular small-group tutorials are held in years one and two. These meetings will allow you to meet with other students in small groups (typically four or five students to one tutor) and receive feedback on your continuous assessment. In the first year these sessions are usually given on a weekly basis, in year two they take place fortnightly.
Throughout the delivery of the programme, wherever possible, recent research results are used to illustrate and illuminate the subject.
How will I be supported?
Your main interaction with academic staff will be through lectures, laboratory practical sessions, workshops or small-group teaching sessions (tutorials).
You will also be allocated a personal tutor, a member of academic staff who can provide pastoral support and academic advice during your course.
All lecturing staff can be contacted by email and have either an ‘open door’ policy for students with specific queries about course material, or a system to book meeting times. The School Office can answer most administrative queries immediately.
You will be given access to relevant multimedia material, presentations, lecture handouts, bibliographies, further links, electronic exercises and discussion circles through the University’s virtual learning environment, Learning Central. Opportunities for you to reflect on your abilities and performance are available through the Learning Central ‘Personal Development Planning’ module.
The University offers a range of services including the Careers Service, the Counselling Service, the Disability and Dyslexia Service, the Student Support Service, and excellent libraries and resource centres.
Feedback on progress is typically provided through a combination of discussion in class, written comments on submitted work and review of outline solutions to problems. You are encouraged to discuss any queries related to specific modules with individual lecturers.
How will I be assessed?
There are a wide variety of assessment methods. Some modules combine continuous assessment and end-of-semester exam and others are solely based on continuous assessment.
At first the nature and methods of experiments are clearly defined for you, but by your final year you are expected to tackle more open-ended investigations.
What skills will I practise and develop?
Studying this course will enable you to acquire and develop a range of valuable skills, both discipline specific and based around general employability. You will:
- Develop your experimental, analytical and investigative skills in laboratory classes
- Learn how to design experimental equipment, electronic circuitry or computer data acquisition or data reduction algorithms
- Use precise calculations or order-of-magnitude calculations in appropriate situations
- Use computer packages and/or write software
- Conduct independent research using source materials such as textbooks, scientific journals and electronic databases
- Develop your communication skills, both orally and in writing
- Enhance your team-working skills and ability to critically appraise your own work and the work of others
- Develop your ability to undertake independent learning and effectively manage your time
Based on responses from the 2013-14 Destinations of Leavers from Higher Education (DLHE) survey, 90% of our graduates were in employment and/or further study six months after graduating.
Employers included UK and international universities plus a large range of organisations such as Rolls Royce, European Space Agency, National Instruments and Barclays.
- research scientist
- research development leader
- medical physicist
UK and EU students (2017/18)
Financial support may be available to individuals who meet certain criteria. For more information visit our Funding and fees section. Please note that these sources of financial support are limited and therefore not everyone who meets the criteria are guaranteed to receive the support.
Students from outside the EU (2017/18)
Tuition fees for international students are fixed for the majority of three year undergraduate courses. This means the price you pay in year one will be the same in years two and three. Some courses are exempt, including four and five year programmes. Please check with us for full clarification.
The School covers the cost of essential equipment, including core course textbooks in the first two years. All other suggested textbooks are available through the University libraries.
Will I need any specific equipment to study this course/programme?
The University will provide all essential equipment. It currently also provides the core first-year physics and maths textbooks. You may choose to buy additional textbooks following advice from staff. You may also wish to consider purchasing a personal computer, laptop or tablet device, although specific computing facilities are available on site.
Key Information Sets (KIS) make it easy for prospective students to compare information about full or part time undergraduate courses, and are available on the Unistats website.