**Instructor**: Rami Grossberg

**Office**: WEH 7204

**Phone**: x8482 (268-8482 from external lines), messages at
x2545

**Email**: Rami@cmu.edu

**URL**:
www.math.cmu.edu/~rami

**Office Hours:** Immediately after class or by appointment.

**Purpose**. Field theory has central importnace
in several branches of modern mathematics among them are: Number theory,
geometry and algebra. In recent years field theory
found an increasing role in theoretical computer
science especially in connections with complexity theory and cryptography.
The goal of this course is to provide a successor to
Algebraic Structures (21-373), with an emphasis on applications of
groups, rings, and fields within algebra to some major classical
problems. These include constructions with a ruler and compass, and
(un)Ęsolvability of equations by radicals. It also offers an opportunity
to see group theory and basic ring theory "in action", and introduces
several powerful tools for number theory and algebraic geometry.

The basic ideas and methods required to study finite fields will be
introduced, these have recently been applied in a number of areas of
theoretical computer science including primality testing and
cryptography.

**Course description**. We will start with a review of ring theory.
Definitions and examples, field extensions, adjunction of roots,
algebraic numbers, dimension formula, constructions with ruler and
compass (it is impossible to trisect an arbitrary angle, and it is
impossible to duplicate the cube), splitting fields, existence (and
uniqueness) of algebraic closure, symmetric polynomials, Galois groups,
Galois extensions, the Galois correspondence theorem for characteristics
0, permutations and simplicity of An, unsolvability by radicals of the
general quintic, characterization of finite fields (and their
multiplicative groups), Wedderburn's theorem (optional), transcendental
extensions, Steinitz's theorem on trascendence degree.

**Text**: "Abstract Algebra" by D. S. Dummit & R. M. Foote. 3rd
edition Published by John Wiley & Sons, 2003.
price comparison.

**Test Dates**: The first midterm test will be on Friday March 2nd. The date of the second midterm test will be announced.

**Evaluation**: There will be two one hour tests (in class), weekly homework
assignments, and a three hour final. These will be weighted as
follows:

- Each of the two midterm tests will make up 20% of the grade

- The final will make up 40% of the grade

- Homework
assignments will be collected every Friday, they make up 20% of the
grade.

The standards of academic honesty as stated in the Student Handbook will be strictly enforced.

**Prerequisites**. Algebraic Structures.

Rami's home page.

Last modified:
February 20^{th}, 2018 |