Physics Textbooks

E=mc2: A Biography of the World's Most Famous Equation

By Bodanis, David

Physics Practical Approach

By Bishop, Owen N.

Introductory Physics

By Hill, James William

Basic quantum mechanics

By Cassels, J.M.

Work Out Physics GCSE (Macmillan Work Out S.)

By Keighley, H.J.P., Level

Physics (University of Bath/Macmillan Science 16-19 Project)

By Hutchings, Robert

Medical Physics (University of Bath/Macmillan Science 16-19 Project)

By Hollins, Martin

Nuclear Physics (University of Bath/Macmillan Science 16-19 Project)

By Sang, David

Making Use of Physics for General Certificate of Secondary Education

By Kibble, Bob

Organic Spectroscopy (Structures from Spectra Theory, Instrumentation, Interpretat)

By Kemp, WILLIAM

Work Out Physics GCSE (Macmillan Work Out S.)

By Keighley, H.J.P.

Work Out Physics A-Level (Macmillan Work Out S.)

By Akrill, T.B., Osmond, S.J.

Accessible Physics for A-level: A Guided Coursebook

By Azzopardi, Francis, Stewart, Brian

E=mc2: A Biography of the World's Most Famous Equation

By Bodanis, David, Plates, David Bodanis

Newton: The Making of Genius

By Fara, Patricia

Mathematical Methods and Fluid Mechanics: Unit 3: First-Order Partial Differential Equations and Dimensional Methods (Course MST322)

Mathematical Methods and Fluid Mechanics: Unit 7: Vorticity (Course MST322)

Mathematical Methods and Fluid Mechanics: Unit 8: The Flow of a Viscous Fluid (Course MST322)

Mathematical Methods and Fluid Mechanics: Unit 9: Second Order Partial Differential Equations (Course MST322)

Mathematical Methods and Fluid Mechanics: Unit 10 (Fourier Series and Power Series S.)

Mathematical Methods and Fluid Mechanics: Unit 11: Sturm-Liouville Theory (Course MST322)

Mathematical Methods and Fluid Mechanics: Laplace's Equation (Course MST322)

Mathematical Methods and Fluid Mechanics: Unit 13: The Wave Equation (Course MST322)

Genesis of Quantum Theory/the Mechanics of Waves/Schrodinger's Equation for Potential Wells/the Simple Harmonic Oscillator and the Hydrogen Atom (Course SM355)

Revision exercises (Time Development, Wave Packets and Measurement/scattering and Barrier Penetration/revision Exercises/introduction to Angular Momentum in Quantum Mechanics)

The Quantum Theory of Spin/quantum Mechanical Postulates for Bound Systems/the Postulates of Elementary Quantum Mechanics

Angular Momentum in Quantum Mechanics/the Coulomb Model of the Hydrogen Atom/approximation Methods in Quantum Mechanics

Identical Particles and Atomic Structure/applications: the Fine Structure of the Hydrogen Atom, and the Binding of the Hydrogen Molecular Ion

Motion Under Gravity - Practical Work in Science (Unit 3-4) (Course S102)

Energy - Modelling the Behaviour of Light (Unit 9-10) (Course S102)