# 2022/23 Undergraduate Module Catalogue

## MATH3195 Commutative Rings and Algebraic Geometry

### 15 creditsClass Size: 50

**Module manager:** Dr Eleonore Faber**Email:** E.M.Faber@leeds.ac.uk

**Taught:** Semester 2 (Jan to Jun) View Timetable

**Year running** 2022/23

### Pre-requisite qualifications

MATH2025 or MATH2026 or MATH2027, or equivalent.### This module is mutually exclusive with

MATH3193 | Algebras and Representations |

MATH5195M | Advanced Commutative Rings and Algebraic Geometry |

MATH5253M | Commutative Algebra and Algebraic Geometry |

Module replaces

MATH3193**This module is not approved as a discovery module**

### Module summary

Algebraic geometry is the study of the solution sets of polynomial equations, just as linear algebra is the study of the solution sets of linear equations. Polynomial equations in several variables are fundamental in both pure and applied mathematics since they allow us to describe many shapes, such as circles, ellipses and parabolas. Examples include the trajectory of an object moving under gravity and the points that can be reached by a robot arm.Sets of solutions of polynomial equations, known as affine varieties, have beautiful properties. The role of polynomials in their description means that they can be studied via commutative rings, such as polynomial rings. There is thus a rich interplay between the geometry of varieties and the algebraic properties of commutative rings. The module will introduce the basic ideas of algebraic geometry via commutative rings, with an emphasis on concrete examples and explicit calculations.### Objectives

To give an introduction to the theory of algebraic geometry via affine algebraic varieties.To give an introduction to the theory and properties of the commutative rings which arise in the description of algebraic varieties.

To illustrate how commutative rings can be used to study algebraic varieties, and how the properties of each are interrelated.

In particular, to study the primary decomposition of ideals and the irreducible components of varieties and how these are related.

To focus on the use of interesting examples to illustrate ideas in the theory.

To develop the skills of rigorous logical argument and problem-solving in the context of commutative rings, algebraic geometry and their interaction.

**Learning outcomes**

On completion of this module, students should be able to:

(a) Define and use key concepts in commutative rings and algebraic geometry;

(b) State and prove basic results in commutative rings and algebraic geometry;

(c) Solve simple problems concerning varieties;

(d) Understand the relationship between ideals and varieties.

### Syllabus

Revision of rings and polynomials

Commutative rings and ideals

Varieties and an algebra-geometry dictionary

Noetherian rings and modules

Decomposition of ideals and irreducible components of varieties

Brief discussion of application(s), e.g. geometric description of the points that can be reached by a robot arm.

Optional topic: Groebner basis

### Teaching methods

Delivery type | Number | Length hours | Student hours |

Lecture | 33 | 1.00 | 33.00 |

Private study hours | 117.00 | ||

Total Contact hours | 33.00 | ||

Total hours (100hr per 10 credits) | 150.00 |

### Private study

Study and revision of course material.Completion of assignments and assessments.

### Opportunities for Formative Feedback

Regular problem sheets### Methods of assessment

**Exams**

Exam type | Exam duration | % of formal assessment |

Standard exam (closed essays, MCQs etc) | 2 hr 30 mins | 100.00 |

Total percentage (Assessment Exams) | 100.00 |

Normally resits will be assessed by the same methodology as the first attempt, unless otherwise stated

### Reading list

The reading list is available from the Library websiteLast updated: 09/05/2022 09:13:03

## Browse Other Catalogues

- Undergraduate module catalogue
- Taught Postgraduate module catalogue
- Undergraduate programme catalogue
- Taught Postgraduate programme catalogue

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