A metric space is a set $X$ together with a function
$$ \operatorname{dist}: X \times X \to \R $$
called a metric such that the following laws are satisfied:
• (Positivity) $\operatorname{dist}(x,y) \ge…
A homotopy $h : p \simeq q$ between maps $p,q : X \to Y$ is a continuous map
\[
h: X \times I \to Y
\]
such that
\[
h(x,0) = p(x), h(x,1) = q(x)
\]
where $I = [0,1]$ the unit interval.
An equivalence class is a subset of a larger set containing elements that are considered
"equivalent" to eachother in the context of a equivalence relation.
An equivalence relation is a binary operation denoted $a \s…
Let
$$
\gamma_0(t) = (t,0), \quad \gamma_1(t) = (t,t), \quad t \in [0,1].
$$
Both paths go from $(0,0)$ to $(1,1)$.
Define a homotopy $H : [0,1] \times [0,1] \to \mathbb{R}^2$ by
$$
H(t,s) = (t, s t).
$$
Proof th…
Let $f$ be a loop.
Let $[f]$ denote the equivalence class under homotopy for $f$.
We define $\pi_1(X,x)$ to be the set of equivalence classes of loops that start and end at $x$.
We will show that…
For a path $a : x \to y$, define
\[
\gamma[a] : \pi_1(X,x) \to \pi_1(X,y)
\]
by
\[
\gamma[a][f] = [a \cdot f \cdot a^{-1}]
\]
This is a homomorphism of groups.