
Academic Year:  2015/6 
Owning Department/School:  Department of Physics 
Credits:  6 
Level:  Intermediate (FHEQ level 5) 
Period: 
Semester 1 
Assessment Summary:  EX 100% 
Assessment Detail: 

Supplementary Assessment: 
PH20019  Mandatory Extra Work (where allowed by programme regulations) 
Requisites:  Before taking this module you must take PH10008 AND take PH10007 
Description:  Aims: The aim of this unit is to introduce mathematical concepts and techniques required by science students, and to show how these may be used for different applications. It also aims to continue the development of students' problemsolving skills and their understanding of mathematical results. Learning Outcomes: After taking this unit the student should be able to: * find the eigenvalues and eigenvectors of matrices; * calculate the normal modes of coupled vibrational systems; * calculate and interpret derivatives of vector functions of 1 variable; * parameterise curves; * define and transform between Cartesian, plane polar, cylindrical polar and spherical polar coordinates; * visualise points, lines, planes and volumes in these coordinates; * define scalar, vector and conservative fields; * evaluate and interpret grad, ^{2} and directional derivatives of scalar fields in the above coordinate systems; * evaluate and interpret div and curl of vector fields in the above coordinate systems; * evaluate and interpret line, surface and volume integrals in the above coordinate systems; * identify conservative fields and find their potential functions; * use and interpret vector integral theorems. Skills: Numeracy T/F A, Problem Solving T/F A. Content: Eigenvalues and eigenvectors (6 hours): Revision of matrix algebra. Eigenvalues and eigenvectors of symmetric/Hermitian matrices and their properties. Linear transformations. Normal modes of ball and spring systems. Vector calculus (16 hours): Differentiation of vectors. Space curves; parameterisation of curves, unit tangent vector. Scalar and vector fields in Cartesian coordinates. Gradient and directional derivative of a scalar field, as a vector operator. Div and curl in Cartesian coordinates, physical interpretation. Identities involving , definition of ^{2}. Tangential line integrals. Conservative fields and potential functions. Surface, flux and volume integrals in Cartesian coordinates. Orthogonal curvilinear coordinate systems. Plane polar coordinates; velocity and acceleration, equations of motion. Spherical polar and cylindrical polar coordinates. Line, surface and volume integrals integrals in curvilinear coordinates. Grad, div, curl and ^{2} in curvilinear coordinates; div and curl as limits of integrals. Meaning and uses of ^{2}. Vector integral theorems; Divergence, Stoke's and Green's theorems. Use of vector integral theorems. 
Programme availability: 
PH20019 is Compulsory on the following programmes:Department of Physics
PH20019 is Optional on the following programmes:Programmes in Natural Sciences
