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Sheffield Hallam University

UCAS Code: F300 | Bachelor of Science (with Honours) - BSc (Hons)

Entry requirements

Access to HE Diploma

M:15

Access - an Access to HE Diploma with at least 45 credits at level 3 and 15 credits at level 2. At least 15 level 3 credits must be at merit grade or above, from a QAA-recognised Access to HE course, or an equivalent Access to HE certificate.

GCSE/National 4/National 5

English Language at grade C or 4 Maths at grade C or 4 Science at grade C or 4

UCAS Tariff

112-120

This must include at least 64 UCAS points from Physics and Mathematics A levels (with a minimum grade C in both). For example: BBB-BBC at A Level with the grade C in Mathematics or Physics DDM in BTEC Extended Diploma Merit overall from a T level qualification A combination of qualifications, which must include 64 points from A level Mathematics and Physics (with a minimum grade C in both) and may include AS Levels, EPQ, general studies and BTEC National Qualifications If you don’t meet these criteria you may be qualified for our BSC Physics with Foundation Year course.

About this course

This course has alternative study modes. Contact the university to find out how the information below might vary.

Course option

3years

Full-time | 2025

Other options

4 years | Sandwich | 2025

Subject

Physics

**Please check the Sheffield Hallam University website for the latest information.**

**Course summary**

- Be a physicist from day one, using key principles to solve real-world problems.

- Explore the universe, from black holes to the Higgs Boson.

- Specialise in anything from astro to particle physics.

- Use physics creatively to discover new things.

- Apply theory to hands-on experiments, placements, projects and modelling.

Learning in small, close-knit and supportive groups, you’ll study a range of classical and modern physics, using mathematical and analytical tools to solve the problems you encounter. The skills you’ll develop are some of the most versatile of any subject, preparing you to excel in the world of physics and beyond.

If you don't meet the entry requirements for this course, or you’d like extra preparation before starting degree-level study, we recommend you join the foundation course.

**How you learn**

All our courses are designed around a set of key principles based on engaging you with the world, collaborating with others, challenging you to think in new ways, and providing you with a supportive environment in which you can thrive. You’ll connect theory to real-world applications and dive into ongoing research and industry trends.

**Course Topics**

The course covers an extensive range of topics – including quantum physics, atomic structure, astrophysics, cosmology, nuclear and particle physics, thermodynamics and statistical mechanics, and advanced computational physics.

During the course, you’ll jump into atomic, nuclear and particle physics – exploring the universe through astrophysics, the infinitesimal, quantum physics and the structure of matter. You’ll also hone your skills in python programming and research, collaborating with second and final-year students on a project from our research institute.

We’ll then explore quantum tunnelling, dark matter and how to apply electromagnetism, special relativity and thermodynamics to real-world problems. You’ll work on a large project based in our research institute, taking a greater responsibility for driving the research. You’ll also be supported to find a paid industrial work placement in an area of your choosing, as well as an optional work placement year – both helping you to get a real sense of how your physics skills support you in work.

In your final year you’ll complete a year-long research project, specialising in an area of physics you’re interested in. For example, you could examine the topology of black holes, explore how superfast magnetic switching materials can treat cancer, or gather data on nuclear transitions at the European Organization for Nuclear Research (CERN). Or even use material research techniques to find fraudulent artefacts in museum collections. You’ll also be able to choose from a selection of taught subjects – from the history of physics to learning how to use Scanning Electron Microscopes.

**Applied learning**

**Live Projects**

Our physics course prioritises the practical application of knowledge and provides opportunities for you to interact with real research and industry projects.

You’ll have the chance to collaborate on live projects that involve real-world physics challenges from industry partners. In previous years students have collaborated with companies such as Mott MacDonald, identifying cutting-edge techniques to examine crack penetration in industrial concrete, and Chase Cryogenics, supporting their development of materials suitable for 3D printing in micro kelvin environments.

**Work Placements**

You’ll have the opportunity to arrange a year-long work placement in between your second and third years. This allows you to graduate with an Applied Professional Diploma to add to your CV.

Previous students have secured placements at businesses such as Rutherford Appleton laboratories, HSBC, Covance, the RAF and Babcock International.

Modules

Module and assessment information for future years is displayed as currently validated and may be liable to change. When selecting electives, your choices will be subject to the core requirements of the course. As a result, selections may be limited to a choice between one of two or more specified electives in some instances.

**Important notice:** The structure for this course is currently being reviewed and enhanced to provide the best possible learning experience for our students. Module structure, content, delivery and assessment are all likely to change, but we expect the focus of the course and the learning outcomes to remain as described above. Once the changes have been confirmed, updated module information will be published on this page.

You will be able to complete a placement year as part of this course. See the modules table below for further information.

**Year 1**

**Compulsory modules**

Bridging The Gap From Classical To Quantum Physics
Exploring The Building Blocks Of Matter - Particle, Nuclear, And Atomic Physics
Physics In Practice - Skills For Real-World Applications
The Physics Of Stars And Beyond - Exploring The Universe

**Year 2**

**Compulsory modules**

Exploring The Cosmos Through Mechanics, Relativity, And Astrophysics
Harnessing Quantum And Computational Physics For Discovery
How To Predict The Future - Thermodynamics And Statistical Physics
Physics Unleashed - Mastering Real-World Applications

**Year 3**

**Optional modules**

Placement Year

**Final year**

**Compulsory modules**

Developing Further Advanced Topics In Physics And Its Applications
Discovering Advanced Topics In Physics And Its Applications
Project: Implementation
Project: Management And Scoping

Assessment methods

Coursework | Exam

Tuition fees

Select where you currently live to see what you'll pay:

Channel Islands
£9,250
per year
England
£9,250
per year
EU
£16,655
per year
International
£16,655
per year
Northern Ireland
£9,250
per year
Republic of Ireland
£9,250
per year
Scotland
£9,250
per year
Wales
£9,250
per year

Extra funding

Scholarships, discounts and bursaries may be available to students who study this course.

The Uni

Course location:

Sheffield Hallam University

Department:

College of Business Technology and Engineering

Read full university profile

What students say

We've crunched the numbers to see if overall student satisfaction here is high, medium or low compared to students studying this subject(s) at other universities.

87%
Physics

How do students rate their degree experience?

The stats below relate to the general subject area/s at this university, not this specific course. We show this where there isn’t enough data about the course, or where this is the most detailed info available to us.

Physics

Teaching and learning

87%
Staff make the subject interesting
87%
Staff are good at explaining things
93%
Ideas and concepts are explored in-depth
93%
Opportunities to apply what I've learned

Assessment and feedback

Feedback on work has been timely
Feedback on work has been helpful
Staff are contactable when needed
Good advice available when making study choices

Resources and organisation

80%
Library resources
87%
IT resources
93%
Course specific equipment and facilities
60%
Course is well organised and has run smoothly

Student voice

Staff value students' opinions
Feel part of a community on my course

Who studies this subject and how do they get on?

95%
UK students
5%
International students
84%
Male students
16%
Female students
95%
2:1 or above
28%
First year drop out rate

Most popular A-Levels studied (and grade achieved)

D
D
D

After graduation

The stats in this section relate to the general subject area/s at this university – not this specific course. We show this where there isn't enough data about the course, or where this is the most detailed info available to us.

Physics

What are graduates doing after six months?

This is what graduates told us they were doing (and earning), shortly after completing their course. We've crunched the numbers to show you if these immediate prospects are high, medium or low, compared to those studying this subject/s at other universities.

£18,720
low
Average annual salary
95%
med
Employed or in further education

Top job areas of graduates

17%
Teaching and educational professionals
15%
Sales assistants and retail cashiers
11%
Sales, marketing and related associate professionals

Although the subject has seen a bit of resurgence in recent years, the UK is still felt to be short of physics graduates, and in particular physicists training as teachers. If you want a career in physics research — in all sorts of areas, from atmospheric physics to lasers - you'll probably need to take a doctorate, and so have a think about where you would like to do that and how you might fund it (the government funds many physics doctorates, so you might not find it as hard as you think). With that in mind, it's not surprising that just over a fifth of physics graduates go on to take doctorates when they finish their degree, and well over a third of physicists take some kind of postgraduate study in total. Physics is highly regarded and surprisingly versatile, which is why physics graduates who decide not to stay in education are more likely to go into well-paid jobs in the finance industry than they are to go into science. The demand and versatility of physics degrees goes to explain why they're amongst the best-paid science graduates.

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Teaching Excellence Framework (TEF):

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This information comes from the National Student Survey, an annual student survey of final-year students. You can use this to see how satisfied students studying this subject area at this university, are (not the individual course).

This is the percentage of final-year students at this university who were "definitely" or "mostly" satisfied with their course. We've analysed this figure against other universities so you can see whether this is high, medium or low.

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This information is from the Higher Education Statistics Agency (HESA), for undergraduate students only.

You can use this to get an idea of who you might share a lecture with and how they progressed in this subject, here. It's also worth comparing typical A-level subjects and grades students achieved with the current course entry requirements; similarities or differences here could indicate how flexible (or not) a university might be.

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Post-six month graduation stats:

This is from the Destinations of Leavers from Higher Education Survey, based on responses from graduates who studied the same subject area here.

It offers a snapshot of what grads went on to do six months later, what they were earning on average, and whether they felt their degree helped them obtain a 'graduate role'. We calculate a mean rating to indicate if this is high, medium or low compared to other universities.

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Graduate field commentary:

The Higher Education Careers Services Unit have provided some further context for all graduates in this subject area, including details that numbers alone might not show

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The Longitudinal Educational Outcomes dataset combines HRMC earnings data with student records from the Higher Education Statistics Agency.

While there are lots of factors at play when it comes to your future earnings, use this as a rough timeline of what graduates in this subject area were earning on average one, three and five years later. Can you see a steady increase in salary, or did grads need some experience under their belt before seeing a nice bump up in their pay packet?

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