Physical Sciences, BSc

Physical Sciences, BSc

Introduction

This wide ranging degree will be of interest to anyone wishing to leave University with a science degree and will equip you for a future working in a science based industry or even in an area such as science journalism.

Study Information

At a Glance

Learning Mode
On Campus Learning
Degree Qualification
BSc
Duration
48 months
Study Mode
Full Time
Start Month
September
UCAS Code
F302
Pathway Programme Available
Undergraduate Foundation Programme

Many students have a passionate interest in science and technology, and who seek to study a broader degree than just physics or just chemistry. The physical sciences degree answers this need and allows you to study a mix of courses from the physical sciences, including physics, chemistry, geology, biology and so on.

The degree follows a similar structure to the standard Physics degree, however, the flexibility allows for a mix of courses that involve no compulsory Mathematics courses. This appeals to many students who have an interest in this area but are put off by the mathematical components. Courses are dynamic and exciting, including Astronomy and Meteorology so it is a very broad ranging degree programme.

What You'll Study

Year 1

Compulsory Courses

Getting Started at the University of Aberdeen (PD1002)

This course, which is prescribed for level 1 undergraduate students (and articulating students who are in their first year at the University), is studied entirely online, takes approximately 5-6 hours to complete and can be taken in one sitting, or spread across a number of weeks.

Topics include orientation overview, equality and diversity, health, safety and cyber security and how to make the most of your time at university in relation to careers and employability.

Successful completion of this course will be recorded on your Enhanced Transcript as ‘Achieved’.

Optional Courses

Select:

  • The Physical Universe A (PX1015) OR Understanding the Physical World (PX1016)
  • The Physical Universe B (PX1513) OR Astronomy and Meteorology (PX1514)

Plus select a further 30 credit points from level 1 courses in Physical Sciences*, plus a further 60 credit points from courses of choice

* For the purposes of this degree, the Physical Science Group of courses consists of all courses with codes PX, PC, CM, CS, EG, ES, GL, MA, MX, SS and ST, plus GG 2510 and GG 3069.

The Physical Universe A (PX1015)

15 Credit Points

Physics is the most fundamental of the sciences, and if we wish to better understand the nature and behaviour of the Universe, it is perhaps the best place to start. This course introduces the basic topics of Physics, from the sub-microscopic scale of electrons and atoms, to the orbits of the planets and stars, to the celestial mechanics of galaxies. It encompasses the work of Physicists like Isaac Newton, Albert Einstein, Marie Curie and Jocelyn Bell Burnell. If you’ve ever been curious about how the world works, you will hopefully find this course, typically well-regarded by students, interesting.

Understanding the Physical World (PX1016)

15 Credit Points

Did you ever wonder about the efficiency of different forms of renewable energy, the mechanisms behind the formation of double rainbows or efficient ways of counting the number of termites in a nest? This non-calculus course provides an excellent opportunity to understand the basic principles of physics necessary to answer these and many other questions relevant to multiple disciplines, ranging from geology to engineering to biology and environmental sciences.

The Physical Universe B (PX1513)

15 Credit Points

Understanding electric and magnetic forces is of paramount importance for understanding the physical world. They are eventually responsible for the matter around us to self-organize (in solid, liquid and gas phases), with given structures, density, elastic properties, and so on. Furthermore, they are responsible for light emission and propagation across the space.

Already the first rudiments of electricity and magnetism will help to appreciate that they are two difference faces of the same coin: electromagnetism. This relationship is the first evidence of the possibility to build a unified description of the microscopic laws of the physical universe.

Astronomy and Meteorology (PX1514)

15 Credit Points

Impossibly distant, sparkling jewels cast on the black velvet cloth of the sky, no sight inspires more awe than the beauty of the stars. This course explores the evolution of our understanding of astronomy from how the Universe at large works to the modern view of our solar system.

Science also intersects with our daily lives in the weather. We discuss the way elementary physics causes everything from everyday weather to colossal storm systems, and we explore some major science issues including climate change.

Historically descriptive, with introductory basic physical concepts, this is a suitable course for all undergraduate students.

Year 2

Optional Courses

Select one of the following:

  • Light Science (PX2013) AND Practical Optics and Electronics (PX2505)
  • Dynamical Phenomena (PX2015) AND Relativity and Quantum Mechanics (PX2510)

Plus select a further 30 credit points from level 2 courses in Physical Sciences, plus a further 60 credit points from courses of choice

Light Science (PX2013)

15 Credit Points

For most of us, our perceptions are governed most strongly by our vision. We see because of light, but what is light? It’s been considered a particle, a wave, and in modern physics is somehow both. This course explores the fascinating physics of this phenomenon, at an elementary mathematical level suitable for non-science students. We’ll cover petrological microscopy, of interest to geologists, interference and diffraction, how colour works, see how polarisation can be applied in both scientific fields and every day life, and see how the photon can be used in devices in the increasing prevalent field known as photonics.

Practical Optics and Electronics (PX2505)

15 Credit Points

This 100% continuously assessed course explores two fundamental areas of physics. In electronics you will go from building simple circuits to designing complex logical architectures, using both real components and simulation software.

The optics half of the course explores various fascinating optical phenomena, some of which are practically applicable for geologists and many other scientific disciplines. The practicals elegantly demonstrate the fundamental properties of light.

Dynamical Phenomena (PX2015)

15 Credit Points

Understanding oscillatory and wavelike behaviour is of huge importance in comprehending how our natural world works. It seems that everything in nature has its own cycle, rhythm or oscillation. From planets revolving around the sun to waves on the sea, even fundamental particles are treated as waves in modern physics. Accessible to students with some knowledge of calculus, this course will explain the mathematics of this fascinating and important subject. Methods of solving the differential equations that describe waves and oscillatory phenomena will be explored, including numerical techniques.

Relativity and Quantum Mechanics (PX2510)

15 Credit Points

In the 20th Century, Physics got strange, and this course sets out to explore the foundations of this modern approach. In Special Relativity we will look at the idea that time is not an absolute – that events can happen in different times for different observers – and explore the effects of travelling at close to the speed of light. The quantum mechanics section introduces some of the most exciting and dramatically successful science of all time, and discuss the evolution of this idea from the days of Schrodinger’s cat to quantum tunnelling.

Year 3

Optional Courses

Select a further 30 credit points from Level 3 Physical Sciences courses, plus a further 30 credit points from courses of choice.

PX4510 - Structure of Matter and the Universe OR PX4516 - Nuclear and Semiconductor Physics

Energy and Matter (PX3014)

15 Credit Points

Our world is made of three types of matter, Solids, Liquids and Gases. The first part of this course will explore the physical properties of these forms of matter and investigate important technological phenomena such as the flow of liquids and the causes of catastrophic failure in mechanical components. In the second half of the course, the nature of heat energy in matter will be explored. Thermodynamic behaviour will be understood in terms of Entropy and the operation of engines and their theoretical efficiency limitations will be explained.

Introduction to the Solid State (PX3016)

15 Credit Points

The course is based on modern views on the structure of solids, how that structure is determined by X-ray crystallography and the basics of structure-property relationships. This involves learning the language of the basic shapes and symmetry displayed by crystals, then using that within the interdisciplinary subject of X-ray crystallography, source of many Nobel prizes and great advance in Physics, Chemistry, Materials Science, Biology and Medicine. The course then briefly examines some key topics including semiconductors, defects and amorphous materials.

Advanced Practical Physics (PX3510)

15 Credit Points

Theories of the physical world around us must be consistent with nature. This can be checked by experiment and indeed unexpected experimental results can lead to the development of new theories. This course offers the opportunity to test theories in optics, electromagnetism, thermodynamics and materials science by experiment. You will learn how to carry out experiments, analyse your data and present your results both in writing and verbally. You will get the opportunity to work with Michelson interferometers, sensors, instrumentation and computers. This course supports your physics lectures and prepares you for an experimental scientists work after university.

Electricity and Magnetism (PX3512)

15 Credit Points

We are surrounded by electromagnetic phenomena; it is not possible to understand the physical world without them. In this course we will discuss the link between electricity and magnetism, noticing that changing electric magnetic fields generate electric fields and the other way around. This will lead to the introduction of Faraday’s law, hugely relevant to understand how we generate electricity, and to the introduction of Maxwell’s correction to Ampere’s law, which will lead to the astounding result that light is an electromagnetic wave! We will finish the course by exploring how electromagnetic waves propagate and how they are originated.

Quantum Mechanics (PX3511)

15 Credit Points

The course aims to provide the students with the underpinning knowledge that will enable them to think constructively about phenomena that relate to the quantum structure of matter. It is intended that the students will gain a broad appreciation of the hierarchy of interactions that give rise to the energy levels of atoms and the consequent structure of the associated spectroscopic transitions. In comparison to the previous years more emphasis will be put on the general, mathematical structure of quantum theory, tackling topics such as Hilbert spaces and time independent perturbation theory.

Mathematical Methods in Physics (PX3020)

15 Credit Points

This course introduces key mathematical methods required in more advanced physics courses. The mathematical methods introduced in this course will be key to understand courses such as Electricity and Magnetism, Quantum Mechanics and Statistical Physics. The importance of the mathematical and computational methods discussed in this course goes beyond being useful for other physics courses, as they will provide you with key analytical tools to approach a large variety of problems, also relevant for your career after University.

Year 4

Compulsory Courses

Project (PX4013)

45 Credit Points

PX4013 provides the opportunity to carry out an independent, open-ended, piece of research work. This can be in an area of physics (astronomy, nuclear physics, superconductors, dynamical systems etc.) or in related subjects where physicists tools can be applied (generation of proteins, biomechanics, infectious diseases etc.). The project can be dissertation based, practical or computational. You will develop: presentation skills; experience of reading and thinking about a specialist topic in depth; critical analysis skills of your own and other people’s scientific work and project management skills. This will help prepare for your future career beyond university.

Statistical Physics and Stochastic Systems (PX4012)

15 Credit Points

Statistical physics derives the phenomenological laws of thermodynamics from the probabilistic treatment of the underlying microscopic system. Statistical physics, together with quantum mechanics and the theory of relativity, is a cornerstone in our modern understanding of the physical world.

Through this course, you will gain a better understanding of fundamental physical concepts such as entropy and thermodynamic irreversibility, and you will learn how derive some simple thermodynamic properties of gases and solids.

The final part of the course is devoted to an introduction to stochastic systems, which are widely used in many different fields such as physics, biology and economics.

Case Studies in Physical Sciences (PX4007)

15 Credit Points

Whatever career you end up in, group working skills will be critical, and this course is designed to develop them. It is 100% continuously assessed and consists of some initial teamwork training, followed by two very different projects. One explores PET scanning and is taught by Professor Andy Welch, who is in charge of the medical imaging unit at Foresterhill. The other is about fibre optics communications and is taught by Dr. Ross Macpherson. These open-ended projects will give you some less prescriptive assessment in your final year.

Modelling Theory (PX4514)

15 Credit Points

This course was designed to show you what you can do with everything you learnt in your degree. We will use mathematical techniques to describe a fast variety of “real-world” systems: spreading of infectious diseases, onset of war, opinion formation, social systems, reliability of a space craft, patterns on the fur of animals (morphogenesis), formation of galaxies, traffic jams and others. This course will boost your employability and it will be exciting to see how everything you learnt comes together.

Optional Courses

Select 15 further credit points from courses in Physical Sciences at Level 3 or 4, plus 15 credit points from courses of choice.

NOTE: A graduating curriculum for the Honours programme must include 90 credit points from Level 4 courses.

PX4510 - Structure of Matter and the Universe OR PX4516 - Nuclear and Semiconductor Physics

We will endeavour to make all course options available; however, these may be subject to timetabling and other constraints. Please see our InfoHub pages for further information.

How You'll Study

Learning Methods

  • Group Projects
  • Individual Projects
  • Lab Work
  • Lectures
  • Research
  • Tutorials

Assessment Methods

Students are assessed by any combination of three assessment methods:

  • coursework such as essays and reports completed throughout the course;
  • practical assessments of the skills and competencies learnt on the course; and
  • written examinations at the end of each course.

The exact mix of these methods differs between subject areas, year of study and individual courses.

Honours projects are typically assessed on the basis of a written dissertation.

Why Study Physical Sciences?

Why Physics

  • We are ranked 6th in the UK for Physics - The Guardian University Guide 2024
  • 2nd in Scotland for Overall Satisfaction - NSS 2023
  • Our BSc Physics degree is accredited by the Institute of Physics.
  • We also offer a broad-based, less mathematical degree in Physical Science that allows the combination of Physics courses with a wide choice of other subjects.
  • The Physics and Astronomy Society is open to any students with an interest in physics or astronomy and organises a series of talks, experimental sessions, astronomy nights, trips, game nights, and numerous social outings.
  • We are engaged in a wide range of research areas ranging from the fundamental nature of the universe through to understanding the atomic structure of complex materials and semiconductor device physics.
  • Our graduates go in to a huge range of jobs including; Meteorology, Medical physics, Environmental monitoring, Astronomy, Particle physics, Geophysics, Materials science, Invention Design, Teaching,
    Financial Modelling.
  • Notable former staff include James Clerk Maxwell, who is widely regarded as one of the greatest scientists who have ever lived due to his revolutionary work on electricity, magnetism, and optics and the Nobel Prize winner GP Thomson.

Entry Requirements

Qualifications

The information below is provided as a guide only and does not guarantee entry to the University of Aberdeen.


General Entry Requirements

2024 Entry

SQA Highers

Standard: AABB*

Applicants who have achieved AABB (or better), are encouraged to apply and will be considered. Good performance in additional Highers/ Advanced Highers may be required.

Minimum: BBB*

Applicants who have achieved BBB (or are on course to achieve this by the end of S5) are encouraged to apply and will be considered. Good performance in additional Highers/Advanced Highers will normally be required.

Adjusted: BB*

Applicants who have achieved BB, and who meet one of the widening access criteria are are guaranteed a conditional offer. Good performance in additional Highers/Advanced Highers will be required.

* Including good performance in at least two Mathematics/ Science subjects by the end of your senior phase of education.

More information on our definition of Standard, Minimum and Adjusted entry qualifications.

A LEVELS

Standard: BBB*

Minimum: BBC*

Adjusted: CCC*

* Including good performance in at least two Mathematics/ Science subjects by the end of your senior phase of education.

More information on our definition of Standard, Minimum and Adjusted entry qualifications.

International Baccalaureate

32 points, including 5, 5, 5 at HL, with two Mathematics/ Science subjects at HL.

Irish Leaving Certificate

5H with 3 at H2 AND 2 at H3 including a minimum of H3 from two Science or Mathematics subjects.

Entry from College

Advanced entry to this degree may be possible from some HNC/HND qualifications, please see www.abdn.ac.uk/study/articulation for more details.

2025 Entry

SQA Highers

Standard: BBBB*

Applicants who have achieved BBBB (or better), are encouraged to apply and will be considered. Good performance in additional Highers/ Advanced Highers may be required.

Minimum: BBB*

Applicants who have achieved BBB (or are on course to achieve this by the end of S5) are encouraged to apply and will be considered. Good performance in additional Highers/Advanced Highers will normally be required.

Adjusted: BB*

Applicants who have achieved BB, and who meet one of the widening access criteria are are guaranteed a conditional offer. Good performance in additional Highers/Advanced Highers will be required.

Foundation Apprenticeship: One FA is equivalent to a Higher at A. It cannot replace any required subjects.

* Including good performance in at least two Mathematics/ Science subjects by the end of your senior phase of education.

More information on our definition of Standard, Minimum and Adjusted entry qualifications.

A LEVELS

Standard: BBC*

Minimum: BCC*

Adjusted: CCC*

* Including good performance in at least two Mathematics/ Science subjects by the end of your senior phase of education.

More information on our definition of Standard, Minimum and Adjusted entry qualifications.

International Baccalaureate

32 points, including 5, 5, 5 at HL, with two Mathematics/ Science subjects at HL.

Irish Leaving Certificate

5H with 3 at H2 AND 2 at H3 including a minimum of H3 from two Science or Mathematics subjects.

Entry from College

Advanced entry to this degree may be possible from some HNC/HND qualifications, please see www.abdn.ac.uk/study/articulation for more details.

The information displayed in this section shows a shortened summary of our entry requirements. For more information, or for full entry requirements for Sciences degrees, see our detailed entry requirements section.


English Language Requirements

To study for an Undergraduate degree at the University of Aberdeen it is essential that you can speak, understand, read, and write English fluently. The minimum requirements for this degree are as follows:

IELTS Academic:

OVERALL - 6.0 with: Listening - 5.5; Reading - 5.5; Speaking - 5.5; Writing - 6.0

TOEFL iBT:

OVERALL - 78 with: Listening - 17; Reading - 18; Speaking - 20; Writing - 21

PTE Academic:

OVERALL - 59 with: Listening - 59; Reading - 59; Speaking - 59; Writing - 59

Cambridge English B2 First, C1 Advanced or C2 Proficiency:

OVERALL - 169 with: Listening - 162; Reading - 162; Speaking - 162; Writing - 169

Read more about specific English Language requirements here.

International Applicants who do not meet the Entry Requirements

The University of Aberdeen International Study Centre offers preparation programmes for international students who do not meet the direct entry requirements for undergraduate study. Discover your foundation pathway here.

Fees and Funding

You will be classified as one of the fee categories below.

Fee information
Fee category Cost
RUK £9,250
Tuition Fees for 2024/25 Academic Year
EU / International students £24,800
Tuition Fees for 2024/25 Academic Year
Home Students £1,820
Tuition Fees for 2024/25 Academic Year

Scholarships and Funding

Students from England, Wales and Northern Ireland, who pay tuition fees may be eligible for specific scholarships allowing them to receive additional funding. These are designed to provide assistance to help students support themselves during their time at Aberdeen.

Additional Fees

  • In exceptional circumstances there may be additional fees associated with specialist courses, for example field trips. Any additional fees for a course can be found in our Catalogue of Courses.
  • For more information about tuition fees for this programme, including payment plans and our refund policy, please visit our InfoHub Tuition Fees page.

Our Funding Database

View all funding options in our Funding Database.

Careers

There are many opportunities at the University of Aberdeen to develop your knowledge, gain experience and build a competitive set of skills to enhance your employability. This is essential for your future career success. The Careers and Employability Service can help you to plan your career and support your choices throughout your time with us, from first to final year – and beyond.

Our Experts

Information About Staff Changes

You will be taught by a range of experts including professors, lecturers, teaching fellows and postgraduate tutors. Staff changes will occur from time to time; please see our InfoHub pages for further information.

Features

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Learn from world-class experts

Learn from world-class experts

Example - Congratulations to Professor Norval Strachan, Head of Physics at the University of Aberdeen, who has been appointed as Food Standards Scotland's first Chief Scientific Adviser.

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Sir Duncan Rice Library

Sir Duncan Rice Library

The University’s award winning Sir Duncan Rice Library is listed in the “Top 20 spellbinding University libraries in the World”. It contains over a million volumes, more than 300,000 e-books and 21,000 journals.

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Student Recruitment & Admissions
University of Aberdeen
University Office
Regent Walk
Aberdeen
AB24 3FX

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