Physics Summer School

Join our Physics Undergraduate Summer School, gaining confidence and core skills while improving your academic prospects.

Summer School Programme 2025

Applications open on Monday 2 December 2024. Some modules may be subject to change.

Register your interest and we'll let you know once applications open for the 2025 programme.

About the school

The Physics Undergraduate Summer School has been running for over 20 years.

It's an intensive programme that uses small group sizes, dedicated laboratory classes, interactive engagement and concept focused learning to develop confidence and problem-solving skills at undergraduate level.

The Summer School Physics programme

  • Video transcript

    [Intro MUSIC: Fast paced pop rock]

    [Video footage of ßÏßÏÊÓƵ campus from the air]

    Hannah: I decided to study physics abroad here at the ßÏßÏÊÓƵ because we can get the full year of learning Physics completely immersed without worrying about other classes.

    Ramneet: The ßÏßÏÊÓƵ has a great Physics programme, and I was really excited to learn in a place that has such renowned professors and research going on.

    Alex: It's really hard to find the time to study abroad and be able to travel. So, this program just was very ideal for me because I was able to do all of Physics in eight weeks.

    Sandeep: Doing physics in eight weeks is really challenging, but the ATs and professors here have been really supportive, and it really helps you develop your own study strategies to succeed. In the labs, you learn a lot of practical skills, and you get to use a lot of cool equipment as well. And even when I was traveling abroad during my breaks, you look around and you see physics everywhere.

    Esmerelda: Our classes are really small, so it's easier to get more one-on-one attention. And I don't get as nervous when I ask a question because there's not 400 people in a class.

    Alex: I've really enjoyed this campus. It's just very, very beautiful out here, and I've been going on runs, I've been going on hikes.

    Ramneet: I've never had my own bathroom before, so I love my ensuite. I love living in the flat-style accommodations. My flatmates are amazing, and it gives me a lot of privacy being in my own room.

    Sandeep: What's fantastic about being at ßÏßÏÊÓƵ is that you're literally at a prime location. You're super close to the pier, and you're less than an hour train ride away from London.

    Student 1: The ßÏßÏÊÓƵ offers a lot of opportunities for trips and travel, so it's really cool that they have it organised for you already. You're traveling with a group; you're not gonna get lost.

    Sandeep: I just came back from a trip from Spain and the Netherlands.

    Hannah: I've been to Amsterdam. I've also been to Barcelona.

    Philmon: I've been to France for three days, and I went to Iceland for two days.

    Student 1: I would definitely recommend the physics program here. It is difficult, it is fast-paced, but in the end, it'll be worth it. If you just study for the short amount of time, then you can adventure, travel, and do whatever you want later on.

    Esmerelda: ßÏßÏÊÓƵ is very quiet. There's cows outside my window. It's very cute, and I just love it.

    [Outro MUSIC: Fast paced pop rock]

    [Video footage of ßÏßÏÊÓƵ campus from the air]

Browse our modules

There are two modules: Introductory Physics 1 and Introductory Physics 2. Each module is a self-contained, credit-bearing unit of study. You will have a set of learning outcomes and assessments throughout.

Each module carries 15 credits and lasts for four weeks (one session). You take one module per session.

Session One

  • Introductory Physics 1

    Module code: ISP01

    This calculus-based module will provide a firm foundation in physical concepts and principles, covering kinematics and dynamics, fluids, elasticity, wave motion, sound, ideal gases, heat and thermodynamics. Applications of physical concepts will be stressed, particularly those related to biological and medical phenomena as well as those forming the basis of much of modern technology. You gain further insight into the physics taught by carrying out a series of laboratory experiments and learning how to analyse and interpret the data.

    Recommendation: This is an intensive module, requiring good mathematical skills, including algebra and trigonometry and a knowledge of vectors and of differential and integral calculus. We also recommend that you view our  and . Please check with your home institution that your mathematics is at an appropriate level.

    Note: This is an intensive academic module. For a 15-credit module taken over four weeks you need to do about 85 hours of self-study over and above the scheduled 65 contact hours. This means that you should be working for about 20-25 hours per week, on average, in addition to attending classes. You need to bear this in mind when planning trips and travel and outside class. 

    Learning outcomes:

    • Have a basic knowledge of the physics topics covered in the course.
    • Be able to solve physics problems at the appropriate level which requires use of this knowledge.
    • Be able to demonstrate familiarity with simple scientific equipment, make accurate measurements, keep records of observations, analyse and interpret data and write scientific reports on experiments.

    Teaching method: Laboratory, lectures and workshops
    Assessment: 65% Exams, 25% Practical Laboratory Reports, 10% In-class tests
    Contact hours: 65 hours, with 37 hours additional support
    Credits: 15 ßÏßÏÊÓƵ Credits
    Level: 4
    Labatory Fees: £300

Session Two

  • Introductory Physics 2

    Module code: ISP02

    Note: You can only take Introductory Physics 2 if you have completed Introductory Physics 1.

    This calculus-based module will provide a firm foundation in physical concepts and principles, covering electric forces and electric fields, continuous charge distributions, Gauss’s Law, electric potential, capacitance and dielectrics, current and resistance, DC circuits, magnetic fields, force on a charge moving in a magnetic field, charged particle moving in electric and magnetic fields, sources of the magnetic field, Faraday’s law and induction, AC circuits, EM waves, the nature of light and principles of ray optics, image formation and lenses, wave optics and diffraction patterns, introduction to quantum physics, the uncertainty principle, atomic physics, nuclear physics and radioactivity. Applications of physical concepts will be stressed, particularly those related to biological and medical phenomena as well as those forming the basis of much of modern technology. You gain further insight into the physics taught by carrying out a series of laboratory experiments and learning how to analyse and interpret the data.

    Recommendation: This is an intensive module, requiring good mathematical skills, including algebra and trigonometry and a knowledge of vectors and of differential and integral calculus. We also recommend that you view our  and . Please check with your home institution that your mathematics is at an appropriate level.

    Note: This is an intensive academic module. For a 15-credit module taken over four weeks you need to do about 85 hours of self-study over and above the scheduled 65 contact hours. This means that you should be working for about 20-25 hours per week, on average, in addition to attending classes. You need to bear this in mind when planning trips and travel and outside class. 

    Learning outcomes:

    • Have a basic knowledge of the physics topics covered in the course.
    • Be able to solve physics problems at the appropriate level which requires use of this knowledge.
    • Be able to demonstrate familiarity with simple scientific equipment, make accurate measurements, keep records of observations, analyse and interpret data and write scientific reports on experiments.

    Teaching method: Laboratory, lectures and workshops
    Assessment: 65% Exams, 25% Practical Laboratory Reports, 10% In-class tests
    Contact hours: 65 hours, with 37 hours additional support
    Credits: 15 ßÏßÏÊÓƵ Credits
    Level: 4
    Laboratory Fees: £300

The ßÏßÏÊÓƵ reserves the right to cancel modules due to staff availability, student demand, minimum enrolment, or updates to our curriculum. We’ll make sure to let our applicants know of such changes to modules at the earliest opportunity.

Not sure how to choose?

Follow our top tips for choosing your modules. You can also find out about our teaching structure, assessment process and how your credits transfer back to your home institution.

Find out more.

I wanted to continue improving myself and practice being independent by studying abroad.” AN NGUYEN
Physics Summer School student - University of California, Irvine

Which school will I study in?

You'll study in the Department of Physics and Astronomy, part of the School of Mathematics and Physical Sciences.

As a leading research university, ßÏßÏÊÓƵ has a wide range of specialist labs that operate at the intersections between life sciences and physics. It is home to the Brighton and ßÏßÏÊÓƵ Medical School.

You’ll learn from world-leading physics faculty working at the forefront of fundamental physics, ranging from quantum information processing, quantum optics, and cold atom physics through a programme of top-rated particle physics experiments, to the theoretical understanding of space, time and matter.

The modules are tailored for our international students, many whom will be studying university physics for the first time, and who continue onwards to achieve their goal of studying at graduate medical school.

Our physics and astronomy research

Our researchers are working on theoretical and experimental applications of fundamental physics. This work includes developing quantum sensors for biomedical imaging and understanding nanomaterials to develop applications including biosensors.

Our research influences the way we teach, and you'll learn from academics at the top of their fields.

Contact

If you are studying at ßÏßÏÊÓƵ for a summer and have questions, email summer@sussex.ac.uk


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