Degree one map: Difference between revisions

This article defines a property of a continuous map between compact connected orientable manifolds (the property may strictly require a choice of orientation)

Definition

Let ${\displaystyle M}$ and ${\displaystyle N}$ be compact connected orientable manifolds. Choose fundamental classes for ${\displaystyle M}$ and ${\displaystyle N}$. Then a degree one map from ${\displaystyle M}$ to ${\displaystyle N}$ is a continuous map ${\displaystyle f:M\to N}$ such that ${\displaystyle f}$ sends the fundamental class of ${\displaystyle M}$ to the fundamental class of ${\displaystyle N}$.

Facts

• There always exists a degree one map from any compact connected orientable manifold, to the sphere. The map is constructed as follows: let ${\displaystyle M}$ be the compact connected orientable manifold, and ${\displaystyle p\in M}$ be a point. Suppose ${\displaystyle D}$ is a closed disc containing ${\displaystyle p}$ inside a Euclidean neighbourhood of ${\displaystyle p}$. Let ${\displaystyle A}$ denote the complement of ${\displaystyle D}$. The map ${\displaystyle M\to M/A=S^n}$ is a degree one map, viz it induces an isomorphism on the ${\displaystyle n^{th}}$ homology.
• In general, if ${\displaystyle M}$ and ${\displaystyle N}$ are compact connected orientable manifolds, then there exist degree one maps from ${\displaystyle M\mathrm{♯}N}$ to ${\displaystyle M}$ and to ${\displaystyle N}$. The map to ${\displaystyle M}$, for instance, pinches the entire part from ${\displaystyle N}$ to a point. The previous fact can be viewed as a special case of this, by viewing ${\displaystyle M}$ as a connected sum ${\displaystyle M\mathrm{♯}{S}^n}$.
• Any degree one map induces a surjective map on fundamental groups, and hence in particular on the first homology group
• Any degree one map induces a surjective map on all homology groups