
Module Availability 
Spring 


Assessment Pattern 
Unit(s) of Assessment

Weighting Towards Module Mark( %)

Coursework: One takehome assignment and one class test

25

Exam: 2 hours, unseen

75

Qualifying Condition(s) A weighted aggregate mark of 40% is required to pass the module.



Module Overview 
Galois Theory applies the principles of algebraic structure to questions about the solvability of polynomial equations. The feasibility of certain geometrical constructions is also considered.



Prerequisites/Corequisites 
Required: MAT2005 Algebra and Codes Desirable: MAT2006 Groups and Symmetry



Module Aims 
The course will aim to show the power of abstract algebra to produce practical and applicable results. 


Learning Outcomes 
On completion students should: (1) have a deeper appreciation of algebraic structures and of the power of linking different structures, using knowledge of the simpler to gain insights into the more complicated; (2) be able to construct simple proofs similar to those met in the course; (3) be able to evaluate the degree of finite field extensions and apply this to geometric examples; (4) be able to evaluate specific Galois groups and relate their structure to that of field extensions and the solvability of polynomial equations.




Module Content 
Theory of polynomials. Solution of cubic and quartic equations.
Field extensions, degree of an extension, geometric constructions.
Normal and separable extensions, field automorphisms, the Galois correspondence.
Solvable groups. Conditions for solvability of polynomial equations by radicals. 


Methods of Teaching/Learning 
Teaching is by lectures and tutorials: 3 hours per week for 11 weeks.
Learning takes place through lectures, tutorials, exercises and class tests. 


Selected Texts/Journals 
Recommended: Ian Stewart : Galois Theory, CRC Press (1990) or other edition, ISBN 0412345501.
Also useful: Joseph Rotman : Galois Theory (2^{nd} Edition), SpringerVerlag (1998), ISBN 0387985417.
D.J.H. Garling : A Course in Galois Theory, CUP (1986), ISBN 0521312493.
S. Roman : Field Theory, SpringerVerlag (1995), ISBN 0387944079. 


Last Updated 
September 10 
