The Philosophy of Physics and Space-Time



Overview

Join us in Oxford for a stimulating exploration of some of the deepest questions in the Philosophy of Physics, led by two experts in the field.

This in-person day event will present clear and engaging introductions to foundational topics in modern physics, from Newtonian mechanics to the revolutionary implications of Einstein’s Theory of Special Relativity and the profound puzzles posed by competing interpretations of Quantum Mechanics.

Whether you’re a seasoned physicist, a philosopher, or simply curious about the nature of reality, this event provides a rare opportunity to deepen your understanding.

Please note:

  • Due to the nature of the contents of this day, it is not suitable for people under 18 years old.
  • This event will close to enrolments at 23:59 GMT on 3 December 2025.

Programme details

9.45am    
Registration at Rewley House reception

10am
Newton's Laws
James Read

Newton's three laws of motion are familiar to any high school student worldwide. But when one begins to think about them, their content is, as Einstein put it, "a logician's nightmare". For example, Newton's first law of motion states that 'Force-free bodies travel with uniform velocities'. But what does it mean for a body to be 'force-free'? And uniform motion with respect to what? In this talk, James Read will present answers to these questions, uncovering thereby a diverse range of ways in which to understand the content of our most successful and ubiquitous scientific theory of all time.

11.15am
Tea/coffee break

11.45am     
Origins of Einstein's Theory of Special Relativity
Clara Bradley

1pm   
Lunch break

2pm
Interpretations of Quantum Mechanics 
James Read

Perhaps the fundamental innovation of quantum mechanics is the idea that physical systems can be in so-called superposition states. For example, while in classical physics a switch can be either 'on' or 'off', in quantum mechanics the switch can (e.g.) be in a superposition of 'on' and 'off'. Left unchecked, quantum mechanics also permits macroscopic physical systems to be in superposition states—so, e.g., Schrödinger's famous cat can be in a superposition of 'alive' and 'dead'. But we never see such things! So what has gone wrong? In this talk, James Read will introduce a range of different ways of addressing this question—so-called 'interpretations' of quantum mechanics. We'll see that, any way one cuts the quantum pie, significant weirdness ensures.

3.15pm
Tea/coffee break 

3.45pm
Plenary Session
Clara Bradley and James Read, chaired by Stephen Law

5pm
End of day  

Fees

Description Costs
Event Fee (Includes tea/coffee) £120.00
Baguette Lunch £7.50
Hot Lunch £21.25

Funding

If you are in receipt of a UK state benefit or are a full-time student in the UK you may be eligible for a reduction of 50% of tuition fees.

Concessionary fees for short courses

Tutors

Clara Bradley

Speaker

Clara Bradley is a Lecturer in the Department of Philosophy at University College London. She earned her PhD in Philosophy from the Department of Logic and Philosophy of Science at the University of California, Irvine, and holds an MSci in Physics and Philosophy from the University of Bristol. Clara’s research is primarily on the philosophy of physics and the philosophy of science, with a focus on how mathematical structure can be used to characterize and compare the content of physical theories.

Dr Stephen Law

Course Director

Stephen Law is a Departmental Lecturer in Philosophy and Director of the Certificate of Higher Education at OUDCE. His research focuses on the philosophy of mind, language, metaphysics and on philosophy of religion. He also writes many accessible online articles and edits the Royal Institute of Philosophy journal THINK: Philosophy for Everyone.

James Read

Speaker

James Read is an Associate Professor of Philosophy at the University of Oxford and a Tutorial Fellow of Pembroke College, Oxford. He has written over 60 research articles in leading journals in Philosophy and Physics. He is the author of Special Relativity (Cambridge University Press, 2023), Background Independence in Classical and Quantum Gravity (Oxford University Press, 2023), and (with Emily Adlam and Niels Linnemann) Constructive Axiomatics for Spacetime Physics (Oxford University Press, 2025). He is also the co-editor (with Nicholas J. Teh) of the volume, The Philosophy and Physics of Noether’s Theorems (Cambridge University Press, 2022).

Application

Please use the 'Book' button on this page. Alternatively, please contact us to obtain an application form.

Accommodation

If you wish to stay with us before and/or after the event, please contact our Residential Centre for availability and discounted rates.

Call +44 (0) 1865 270362 or email res-ctr@conted.ox.ac.uk

Our accommodation in Wellington Square has been rated as 4-Star Campus Accommodation under Visit England. All bedrooms are modern, comfortably furnished with tea/coffee making facilities, Freeview television, private bath/shower rooms and free WiFi. For more details see our accommodation information.

Terms & conditions for applicants and students

Information on financial support