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DEGREE REGULATIONS & PROGRAMMES OF STUDY 2012/2013

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DRPS : Course Catalogue : School of Physics and Astronomy : Undergraduate (School of Physics and Astronomy)

Undergraduate Course: Mathematics for Physics 4 (PHYS08038)

Course Outline
School	School of Physics and Astronomy	College	College of Science and Engineering
Course type	Standard	Availability	Available to all students
Credit level (Normal year taken)	SCQF Level 8 (Year 2 Undergraduate)	Credits	20
Home subject area	Undergraduate (School of Physics and Astronomy)	Other subject area	None
Course website	WebCT	Taught in Gaelic?	No
Course description	This course is designed for pre-honours physics students, to learn the techniques of vector calculus, Fourier series and transforms, and simple partial differential equations to describe basic concepts in physics. The course consists of an equal balance between lectures to present new material, and workshops to develop understanding, familiarity and fluency.

Entry Requirements (not applicable to Visiting Students)
Pre-requisites	Students MUST have passed: Physics 1A: Foundations (PHYS08016)	Co-requisites	Students MUST also take: ( Physics 2A (PHYS08022) OR Accelerated Algebra and Calculus for Direct Entry (MATH08062)) AND ( Physics 2B (PHYS08023) OR Physics of the Earth (EASC08016) OR Earth Materials (EASC08014)) AND ( Mathematics for Physics 3 (PHYS08037) OR Dynamics (PHYS08040))
Prohibited Combinations		Other requirements	For Fast Track students: SCE Advanced Higher or A Level Physics and Mathematics at A Grade.
Additional Costs	None

Information for Visiting Students
Pre-requisites	None
Displayed in Visiting Students Prospectus?	No

Course Delivery Information

Delivery period: 2012/13 Semester 2, Available to all students (SV1)						WebCT enabled: Yes		Quota: None
Location	Activity	Description	Weeks	Monday	Tuesday	Wednesday	Thursday	Friday
King's Buildings	Lecture		1-11	11:10 - 12:00
King's Buildings	Lecture		1-11		11:10 - 12:00
King's Buildings	Lecture		1-11				11:10 - 12:00
King's Buildings	Lecture		1-11					11:10 - 12:00
King's Buildings	Tutorial	Waves Workshop - Teaching Studio 1206C	2-11	14:00 - 15:50			or 14:00 - 15:50
King's Buildings	Tutorial	Fields Workshop - Teaching Studio 1206C	2-11		14:00 - 15:50			or 14:00 - 15:50
First Class	First class information not currently available
Exam Information
Exam Diet	Paper Name		Hours:Minutes
Main Exam Diet S2 (April/May)			3:00
Resit Exam Diet (August)			3:00

Summary of Intended Learning Outcomes
On completion of this course it is intended that student will be able to &� Demonstrate understanding and work with vector fields and the basic operations of vector calculus, and apply these to a range of problems from of heat flow, fluid flow, electrostatics, and potential theory. &� Demonstrate understanding and work with line, surface and volume integrals, and the associated theorems of Green, Stokes and Gauss, and to apply these to physical problems, for example, fluid flow, heat flow and electromagnetism. &� Demonstrate understanding and work with Fourier series and complex functions, their applications to the solution of ordinary differential equations and elementary physical examples such as standing waves. &� Demonstrate understanding of the Fourier Transform, inversion formula, convolution and Parseval's theorem. To apply these to a range of physical situations, for example, harmonic oscillators and travelling waves, and understand the link to the uncertainty principle. &� Demonstrate understanding of the use of linear response functions, their relation to convolution and associated delta and Green's functions, and to apply these to inhomogenous static and dynamical problems (Poisson and sources of waves).

Assessment Information
20% coursework 80% examination

Special Arrangements
None

Additional Information
Academic description	Not entered
Syllabus	Fields 1. vector fields, grad, div and curl, the Laplacian, identities, potential theorems, polar coordinates, Laplace and Poisson, boundary value problems, with examples from fluid flow, heat flow, electrostatics; 2. Line integrals, double integrals and surface integrals, volume integrals, and evaluation thereof in rectangular and polar co-ordinates, integral theorems (Green, Gauss & Stokes), conservation laws (mass in fluids, charge in electromagnetism, circulation around closed curves in fluids). Waves 1. Fourier Series: complex fns, Fouriers Thm, determining coefficients, solving ODEs with Fourier series, linear algebra view, simple physics examples in terms of standing waves, bound states; 2. Fourier Transform: inversion formula, convolution, Parseval, uncertainty principle, forced damped harmonic oscillator, expansion of solutions, travelling waves; 3. Linear response (and reln to convolution thm), delta function and Greens functions (Poisson and Waves).
Transferable skills	Not entered
Reading list	Not entered
Study Abroad	Not entered
Study Pattern	Not entered
Keywords	MfP4

Contacts
Course organiser	Dr Brian Pendleton Tel: (0131 6)50 5241 Email:	Course secretary	Miss Leanne O'Donnell Tel: (0131 6)50 7218 Email:

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