Program:

1. Ideals in commutative rings.
2. Spectrum of a ring.
3. Zariski topology.
4. Radicals.
5. Modules.
6. Tensor product.
7. Localization.
8. Noetherian and Artinian rings.
9. Primary decomposition.
10. Support.
11. Algebraic extensions, Noether's normalization theorem and Hilbert Nullstellensatz.
12. Integral extensions, "going-up" and "going down" theorems.
13. Discrete valutation rings.
14. Invertible Ideals.
15. Completion, Artin-Rees' lemma, Krull's theorem, Hensel's theorem.
16. Dimension theory.

• [AM] Michael F. Atiyah, Ian G. Macdonald: Introduction to Commutative Algebra, Addison-Wesley, 1994.
• [AK] Allen Altman, Steven Kleiman: A Term of Commutative Algebra
• James S. Milne: A Primer of Commutative Algebra, v4.03a (March 23, 2020), 113 pages. Available at www.jmilne.org/math
• Hideyuki Matsumura: Commutative Algebra, Benjamin-Cummings Pub Co, 1980.
• Christian Peskine: An algebraic introduction to Complex Projective Geometry: 1. Commutative Algebra, Cambridge University Press, 2009.