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Undergraduate Available in Clearing

BSc Physics

Discover the concepts and tools to understand modern physics at a deep level on this accredited course.

Key information

Study mode

Full-time

Course length

3 years

Entry requirements

N/A

See requirements

UCAS code

F300

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Start date

Course overview

Whether you want to explore the world at sub-atomic level or on a cosmological scale, you'll study physics under the guidance of experts. This degree provides you with the concepts and mathematical tools you'll need for a deep understanding of modern physics.

Our graduates have gone on to successful careers in well-known laboratories and research facilities including Jodrell Bank and the National Nuclear Laboratory.

The University’s expertise was recognised as far back as 1969 when we were one of the scientific centres chosen to carry out tests on samples gathered from the Moon by Neil Armstrong’s historic Apollo 11 mission.

Apply now through clearing

01482 462236 Apply online

6 reasons to study Physics at Hull

  1. Accredited by the Institute of Physics (IoP)
  2. Access the North's No 1 university supercomputer
  3. Study under internationally-recognised experts
  4. Tackle unanswered questions in your own research
  5. Develop transferable data science skills
  6. Masters year leads to Chartered Physicist status

What you'll study

The course consists of 120 credits per year. Most modules are 20 credits, meaning you’ll study six modules each year. Some longer modules, such as a dissertation, are worth more (e.g. 40 credits). In these cases, you’ll study fewer modules - but the number of credits will always add up to 120.

First year modules

  • Core

    Introduction to Experimental Skills and Mathematics for Physics

    This module will introduce you to the scientific instruments and experimental skills that you will need in order to study practical physics. You'll also develop your mathematical abilities so that you can solve problems in physics.

    Experimental Physics and Mathematics 1

    This module will further develop your practical and mathematical skills. Team-based experimentation will allow you to explore aspects of practical physics and higher complexity physical problems will be accessible to you due to extended skills in mathematics.

  • Compulsory

    The Classical World (for Theoretical Physics)

    This module delivers essential core physics covering two main themes: classical mechanics and optics. You will study Newton's Laws and extend them to simple fluid dynamics, as well as applying knowledge of optics in different regimes.

    Gravitation and Astronomy

    This module delivers essential core physics in the area of gravitation and rotational mechanics through an introduction to astronomy and astrophysics. You will study Kepler's Laws; observational astronomy and telescopes; stellar and galaxy evolution; and introductory cosmology.

    Electricity and Magnetism with Computation

    ​You will learn about the fundamental of electrostatics and magnetostatics and learn how to use your knowledge to solve real problems. You will also learn the essentials of programming in Python, which is one of the most popular programming languages available today.

    From the Quantum World to the Macro World – an Introduction to Quantum Physics and the Properties of Matter

    This module presents an integrated view of matter, going from the quantum scale to the macro scale. You will explore how quantum physics can explain the behaviour of atoms and how the collective behaviour of atoms can in turn explain the macroscopic properties of matter that we see around us.

Second year modules

The laboratory is central to your studies where you learn to design experiments and develop practical skills. A global challenge module provides opportunity to tackle real world problems in an interdisciplinary team. Transfer between most physics courses - including the MPhys and BSc courses - is possible up to the end of the second year.

  • Core

    Experimental Physics and Mathematics 2

    You'll study this module through a combination of laboratory classes and mathematics. In the laboratory classes you'll develop your experimental technique skills by creating experiments to solve specific scientific problems. In mathematics, you'll learn about differential equations and Fourier Series.

    Experimental Physics and Mathematics 3

    Develop your own scientific investigations and do authentic scientific research by designing experiments to answer a question that you create. In mathematics, you will learn about Vector Calculus.

  • Compulsory

    Thermodynamics, Statistical Physics and Special Relativity

    This module analyses the equilibrium behaviour of many-body systems from a macroscopic point of view (thermodynamics) and from a microscopic point of view (statistical physics). You'll study the behaviour of systems at significant fractions of the speed of light (special relativity).

    Intermediate Quantum Mechanics with Advanced Computation

    • Quantum Mechanics

    This course continues with the description of quantum based concepts in physics. Schrödinger’s equation and its solutions are applied to a number of different situations, including potential steps, barriers and particle in a box. The method of solution of the equation for the hydrogen atom is discussed to explain the relevance of the associated quantum numbers. Angular momentum and spin are examined along with an introduction to orbital and spin magnetic moments that are used to explain the Zeeman effect and the fine structure splitting of spectral lines.

    • Advanced Computation

    Apply computational methods to various problems in physics.

    The Physics of Waves and Solid State

    In this module you will study the essentials of wave phenomena leading up to electromagnetic waves and Maxwell's equations. Alongside waves, you will learn about the electronic properties of solids, starting from a classical perspective and moving on to a quantum view utilising many concepts of waves.

    Physics by Inquiry: Concepts and Relations

    During this module, you'll use physics to solve real life problems from a wide range of physics topics. There is also a lecture series on famous current and historical physics topics.

Final year modules

You take advanced theoretical, practical and technological topics spanning the wide range of modern physics.

  • Compulsory

    Group Problem Solving

    In this module you will work in groups to solve both an experimental problem and theoretical problems. The experimental problem is based around measurement and uncertainty and is designed to develop your skills in research methods. The theoretical problems are intended to develop your modelling skills and are based around applying new concepts to unfamiliar situations.

    Advanced Quantum, Nuclear and Particle Physics

    Explore advanced concepts in quantum physics, nuclear and particle physics. What are the key theories and experiments of nuclear and particle physics? How can we apply quantum mechanics to solve problems in nuclear and particle physics? What is a Hilbert space?

    Numerical Modelling and Simulation with Research Project Planning

    ​This module introduces you to a high-level of Python programming language. You will learn about numerical techniques to solve a range of complex problems in physics or astrophysics.

    BSc Project

    During this module you'll plan, research, conduct and report a scientific investigation. You will be assigned either an individual project or a group project. Actual work carried out depends on the topic but may include: research planning, organisation of equipment and/or services, computer programming, data acquisition and analysis, study of related literature.

    Matter at Extremes

    Discover basic concepts of magnetism and superconductivity and outline their role in key applications. You’ll also learn to describe and define the main characteristics of a plasma.

     

  • Optional

    Physics-based Technologies

    Gain insight and understanding of the basic physics that underpins several distinct areas in physics-based technologies in optics and electronics. Particular emphasis will be given to the study of non-linear optical phenomena and non-linear electronic components such as the p-n junction and the bipolar junction transistor.

    Galactic and Extra-Galactic Astronomy

    Develop your ability and confidence in experimental methods and identify the usefulness and limitations of specialist measurement and experimental technology.

All modules are subject to availability and this list may change at any time.

How you'll study

Throughout your degree, you’re expected to study for 1,200 hours per year. That’s based on 200 hours per 20 credit module. And it includes scheduled hours, time spent on placement and independent study. How this time’s divided among each of these varies each year and depends on the course and modules you study.

Overall workload

420 hours

Scheduled study Scheduled hours typically include lectures, seminars, tutorials, workshops, and supervised laboratory and studio sessions.

780 hours

Independent study Independent study is the time outside your scheduled timetable, where you’ll be expected to study independently.

Indicative assessment proportions

59%
13%
28%
  • Examination

    Written assessment typically includes exams and multiple choice tests.

  • Practical

    Practical is an assessment of your skills and competencies. This could include presentations, school experience, work experience or laboratory work.

  • Coursework

    Coursework typically includes essays, written assignments, dissertations, research projects or producing a portfolio of your work.

Overall workload

384 hours

Scheduled study Scheduled hours typically include lectures, seminars, tutorials, workshops, and supervised laboratory and studio sessions.

816 hours

Independent study Independent study is the time outside your scheduled timetable, where you’ll be expected to study independently.

Indicative assessment proportions

51%
6%
43%
  • Examination

    Written assessment typically includes exams and multiple choice tests.

  • Practical

    Practical is an assessment of your skills and competencies. This could include presentations, school experience, work experience or laboratory work.

  • Coursework

    Coursework typically includes essays, written assignments, dissertations, research projects or producing a portfolio of your work.

Overall workload

264 hours

Scheduled study Scheduled hours typically include lectures, seminars, tutorials, workshops, and supervised laboratory and studio sessions.

936 hours

Independent study Independent study is the time outside your scheduled timetable, where you’ll be expected to study independently.

Indicative assessment proportions

55%
11%
34%
  • Examination

    Written assessment typically includes exams and multiple choice tests.

  • Practical

    Practical is an assessment of your skills and competencies. This could include presentations, school experience, work experience or laboratory work.

  • Coursework

    Coursework typically includes essays, written assignments, dissertations, research projects or producing a portfolio of your work.

Isobel-Judson
Isobel Judson Physics

Why I chose Physics at Hull

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Entry Requirements

Don't meet our requirements?

We offer a Foundation Year to boost your skills and knowledge – it’s a great way to make your way into higher education.

Switch to the foundation year

During Clearing we look at all of your qualifications and experience, not just your academic grades – you’re more than just letters on a page!

Some courses still do have requirements such as previous study in your subject area, or specific GCSE grades. Others have additional requirements such as an interview or a satisfactory DBS check.

Please call us now on 01482 462236 to find out if we have a course that’s suitable for you.

Don't meet our requirements?

We offer a Foundation Year to boost your skills and knowledge – it’s a great way to make your way into higher education.

Switch to the foundation year

If you require a Tier 4 student visa to study or if your first language is not English you will be required to provide acceptable evidence of your English language proficiency level.

This course requires academic IELTS 6.0 overall, with no less than 5.5 in each skill. See other English language proficiency qualifications accepted by this University.

If your English currently does not reach the University's required standard for this programme, you may be interested in one of our English language courses.

Visit your country page to find out more about our entry requirements.

Our teaching staff

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Take a tour of the facilities

Take a 360-degree look at our physics laboratory where you'll gain the tools for a broad understanding of modern physics.

Fees & funding

Home / EU

£9,250 per year*

International

£16,600 per year

*The amount you pay may increase each year, in line with inflation - but capped to the Retail Price Index (RPI).

UK and EU students can take out a tuition fee loan to cover the cost of their course, and UK students can take out a maintenance loan of up to £8,700 to cover living costs.

Substantial discounts are available for International students.  

More information on fees can be found in the Money section of the website.

Your tuition fees will cover most costs associated with your programme (including registration, tuition, supervision, assessment and examination).

There are some extra costs that you might have to pay, or choose to pay, depending on your programme of study and the decisions you make. The list below has some examples, and any extra costs will vary.

  • Books (you’ll have access to books from your module reading lists in the library, but you may want to buy your own copies
  • Optional field trips
  • Study abroad (including travel costs, accommodation, visas, immunisation)
  • Placement costs (including travel costs and accommodation)
  • Student visas (international students)
  • Laptop (you’ll have access to laptops and PC’s on campus, but you may want to buy your own)
  • Printing and photocopying
  • Professional-body membership
  • Graduation (gown hire and photography)

Remember, you’ll still need to take into account your living costs. This could include accommodation, travel and food – to name just a few. 

Attainment
Scholarship

If you achieve

112 UCAS tariff points

from three A levels or equivalent, you could receive a reward of

£1,200

Find out more

An affordable city for students

From bills, to meals, to pints – you’ll find that your money goes a lot further in Hull.

Your future prospects

  • Data scientist
  • Laser systems engineering
  • Telecommunications
  • IT and computing
  • Medical physics
  • Nuclear engineer

Recent Hull graduates have gained professional roles at companies such as Rolls-Royce, Thales, QinetiQ, NPL, RB (formerly Reckitt Benckiser), Atkins and Clyde Bergemann.

Others have secured places on graduate training schemes with the National Grid and the NHS, among others.

Open Day at University of Hull

Ready to apply?

You can apply for this course through UCAS. As well as providing your academic qualifications, you’ll be able to showcase your skills, qualities and passion for the subject.

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