BScPhysics with Music

Study location	United Kingdom, Egham, Surrey
Type	Bachelor courses, full-time
Nominal duration	3 years
Study language	English
Awards	BSc
Course code	F3W3

Entry qualification

High school / secondary education (or higher) Required subjects: Mathematics, Physics and Music, plus a Pass in the practical element of all Science A-levels taken. A pass in ABRSM Music Theory grade 8 is acceptable in place of A-level Music. At least five GCSEs at grade A*-C or 9 – 4 including English and Mathematics. The entry qualification documents are accepted in the following languages: English. Often you can get a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original.

Language requirements	English IELTS: 6.5 overall (with a minimum of 5.5 in all other subscores) CAE: 176 overall (with a minimum of 162 in all other subscores)

Other requirements	At least 1 reference(s) must be provided. A motivation letter must be added to your application.

More information	royalholloway.ac.uk/..sics-with-music.aspx

Overview

Interested? To learn more about this study programme, entry requirements and application process, please contact one of our consultants in a country nearest to you.

Programme structure

Year 1

Physics: Mathematics for Scientists 1
In this module you will develop an understanding of how to solve problems involving one variable (either real or complex) and differentiate and integrate simple functions. You will learn how to use vector algebra and geometry and how to use the common probability distributions.

Physics: Mathematics for Scientists 2
In this module you will develop an understanding of how to solve problems involving more than one variable. You will learn how to use matrices and solves eingenvalue problems, and how to manipulate vector differential operators, including gradient, divergence and curl. You will also consider their physical significance and the theorems of Gauss and Stokes.

Physics: Scientific Skills 1
In this module you will develop an understanding of good practices in the laboratory. You will keep a notebook, recording experimental work as you do it. You will set up an experiment from a script, and carry out and record measurements. You will learn how to analyse data and plot graphs using a computer package, and present results and conclusions including error estimations from your experiments.

Physics: Classical Mechanics
In this module you will develop an understanding of how to apply the techques and formulae of mathematical analysis, in particular the use of vectors and calculus, to solve problems in classical mechanics. You will look at statics, dynamics and kinematics as applied to linear and rigidy bodies. You will also examine the various techniques of physical analysis to solve problems, such as force diagrams and conservation principles.

Physics: Fields and Waves
In this module you will develop an understanding of how electric and magnetic fields are generated from static charges and constant currents flowing through wires. You will derive the properties of capacitors and inductors from first principles, and you will learn how to analyse simple circuits. You will use complex numbers to describe damped harmonic oscillations, and the motion of transverse and longitudinal waves.

Physics: Classical Matter
In this module you will develop an understanding of the macroscopic properties of the various states of matter, looking at elementary ideas such as ideal gases, internal energy and heat capacity. Using classical models of thermodynamics, you will examine gases, liquids, solids, and the transitions between these states, considering phase equilibrium, the van der Waals equation and the liquefaction of gases. You will also examine other states of matter, including polymers, colloids, liquid crystals and plasmas.

Physics: Physics of the Universe
In this module you will develop an understanding of the building blocks of fundamental physics. You will look at Einstein’s special theory of relativity, considering time-dilation and length contraction, the basics of quantum mechanics, for example wave-particle duality, and the Schrödinger equation. You will also examine concepts in astrophysics such as the Big Bang theory and how the Universe came to be the way we observe it today.

Year 2

Physics: Mathematical Methods
In this module you will develop an understanding of the mathematical representation of physical problems, and the physical interpretation of mathematical equations. You will look at ordinary differential equations, including linear equations with constant coefficients, homogeneous and inhomogeneous equations, exact differentials, sines and cosines, Legendre poynomials, Bessel’s equation, and the Sturm-Liouville theorem. You will examine partial differential equations, considering Cartesian and polar coordinates, and become familiar with integral transforms, the Gamma function, and the Dirac delta function.

Physics: Scientific Computing Skills
In this module you will develop an understanding of how computers are used in modern science for data analysis and visualisation. You will be introduced to the intuitive programming language, Python, and looking at the basics of numerical calculation. You will examine the usage of arrays and matrices, how to plot and visualise data, how to evaluate simple and complex expressions, how to sample using the Monte Carlo methods, and how to solve linear equations.

Physics: Quantum Mechanics
In this module you will develop an understanding of quantum mechanics and its role in and atomic, nuclear, particle and condensed matter physics. You will look at the wave nature of matter and the probabilistic nature of microscopic phenomena. You will learn how to use the key equation of quantum mechanics to describe fundamental phenomena, such as energy quantisation and quantum tunnelling. You will examine the principles of quantum mechanics, their physical consequences, and applications, considering the nature of harmonic oscillator systems and hydrogen atoms.

Physics: Atomic and Nuclear Physics
In this module, you will develop an understanding of how the quantum mechanics of matter and light can be used to explain atomic and nuclear phenomena. You will look at the various quantum effects involved in the physics of electrons in atoms, and protons and neutrons in the nuclei. You will examine the atomic spectra, radioactive decay, nuclear reactions, the interaction of radiation with mater, as well as experimental techniques. You will also consider the applications of quantum effects, from modern spectroscopy techniques to the detection of radioactivity.

Physics: Classical and Statistical Thermodynamics
In this module you will develop an understanding of themal physics and elementary quantum mechanics. You will look at the thermodynamic properties of an ideal gas, examining the solutions of Schrödinger’s equation for particles in a box, and phenomena such as negative temperature, superfluidity and superconductivity. You will also consider the thermodynamic equilibrium process, entropy in thermo-dynamics, and black-body radiation.

Physics: The Solid State
In this module you will develop an understanding of the physical properties of solids. You will look at their structure and symmetry, concepts of dislocation and plastic deformation, and the electrical characteristics of metals, alloys and semiconductors. You will examine methods of probing solids and x-ray diffraction, and the thermal properties of phonons. You will also consider the quantum theory of solids, including energy bands and the Bloch thorem, as well as exploring fermiology, intrinsic and extrinsic semiconductors, and magnetism.

Year 3

Physics: Optics
In this module you develop an understanding of the properties of light, starting from Maxwell’s equations. You will look at optical phenomena such as refraction, diffraction and interference, and how they are exploited in modern applications, from virtual reality headsets to the detection of gravitational waves. You will also examine masers and lasers, and their usage in optical imaging and image processing.

Physics: Electromagnetism

Physics: Experimental or Theoretical Project
In this module you will plan and execute an extended experimental or theoretical investigation in physics, electronics or astrophysics. You will work with a member of academic staff, who will provide advice and support. You will produce a wrttien report and give an oral presentation, where you will discuss your findings.

Optional modules

In addition to these mandatory course units there are a number of optional course units available during your degree studies. The following is a selection of optional course units that are likely to be available. Please note that although the College will keep changes to a minimum, new units may be offered or existing units may be withdrawn, for example, in response to a change in staff. Applicants will be informed if any significant changes need to be made.

Career opportunities

Study Physics with Music at Royal Holloway, University of London and you’ll graduate with excellent industry contacts, insider knowledge of music networks in London and specific practical skills in performance, composition and production. You’ll earn a highly desirable honours degree offering excellent employability prospects across a range of sectors, and gain a diverse skillset to take into your future career.

Our recent graduates have gone on to enjoy a wide range of careers, including roles as musicians, composers and performing arts teachers, technicians, publishers, managers, lawyers and policy-makers. Follow in their footsteps and you’ll gain transferable skills including communication, teamwork, time management, commercial awareness and critical thinking.