Elementary Properties of Model Categories

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Description

This lecture covers the elementary properties of model categories, essential for defining homotopy and proving its equivalence relation. The duality between fibrations and cofibrations is highlighted, showing that each property has dual flavors. Key topics include the definition of model categories, the relationship between cofibrations and fibrations, and the Retraction Trick.

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Ontological neighbourhood

Mathematics

Topology: Algebraic topology

Related lectures (32)

https://mediaspace.epfl.ch/media/0_dgpk6cva

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In course

DEMO: proident ad enim dolor

Ontological neighbourhood

Mathematics

Topology: Algebraic topology

Related lectures (32)

Homotopy Theory of Chain Complexes

Explores the homotopy theory of chain complexes, focusing on model categories, weak equivalences, and the retraction axiom.

Homotopy Theory: Cylinders and Path Objects

Covers cylinders, path objects, and homotopy in model categories.

Model Category: Definition and Elementary Properties

Covers the definition and properties of a model category, including fibrations, cofibrations, weak equivalences, and more.

Homotopy Category of a Model Category

Introduces the homotopy category of a model category with inverted weak equivalences and unique homotopy equivalences.

Model Categories: Properties and Structures

Covers the properties and structures of model categories, focusing on factorizations, model structures, and homotopy of continuous maps.