Topologie - 2018

Please sign with your name and the date on which you had your exam. If you use this wiki, contribute to it as well or terrible things will happen to you: like me kicking you with my fists.

Tomás, 24.08.2018 11:30-11:50

Topics:

• First countable compact implies sequentially compact
• Exercise: For family \(C_i\) of connected sets, \(C_i \cap C_{i+1} \neq \emptyset\), show connected.

Sisto was super nice and friendly, yet it took me a long time to solve the exercise, and the time was over before we could do anything else. Wish I could have done much more.

Michael, 27.08.2018 11:30-11:50

Topics:

• First X,Y first countable, f continiuos (def open set) iff every sequence (xn) with limit x, f(xn) converges to f(x)
• f:X->X,f(x)=/x for all x in X, continuos, metric space, X comp., -> Exists Epsilon>0 s.t d(f(x),x)>=Epsiolon.

Sisto has a list with statements and exercises and chooses randomly.

Kaye, 27.08.2018 11:10-11:30

Topics:

• exercise: you have (xn) sequence with limit x. Prove that the set containing (I think he meant only, because the solution wouldn’t make sense, but he didn’t really say it.) the sequence and the limit is compact.
• f:R—>R continuous function in R. Proof of one direction of the equivalence between the definition of continuity with open sets and the epsilon, delta definition from analysis.
• the fundamental group: what is the “meaning” of x0? He wanted to know that if there exists a path gamma from x0 to y0, then we can find a group isomorphism between the two fundamental groups. (Proposition seen in class).

Then the time was already over! Sisto is really nice, and gives you time to think about the answer and gives useful hints if necessary.

Emanuel, 27.08 13:10-13:30

Topics:

• Prove that compact sets in Hausdorff spaces are closed.

• XxY, Y cpt, p:XxY -> X projection map, prove that p is a closed map. This was actually rather hard, but he was nice enough to say that beforehand. He had to help me a lot but we managed to do it in the end.

The atmosphere is super relaxed. He has a nice couch infront of his room and gives you chocolates :D

Skander, 27.08 13:50-14:10

Topics:

• Let X be a Hausdorff space, C a compact subset of X, show that C is closed.

• Exercise: For family \(C_i\) of connected sets, \(C_i \cap C_{i+1} \neq \emptyset\), show that the union of the connected sets is connected. (The luck for this one is absolutely unreal, I know)

Schöne Ferien euch allen! ;)))

Laurena, 27.08.18 14:10-14:30

Topics:

• X in Rn is compact iff closed and bounded, proof of one implication
• X first countable, C closed iff limit of converging sequence in C is in C, proof of one implication

Exercises:

• Same exercise as Skander and Tomás
• X topological space, topology containing empty set and complement of finite sets, prove that it is not 1st countable

Gideon, 27.08 15:40-16:00

Topics:

• Heine Borel with proof in one direction of choose
• Closed subset of a compact space is compact.
• Prove that the union of a sequence and its limit is compact.

Viviane, 28.8.2018 9:50-10:10

• 3 equivalences for compactness in metric spaces and Proof of compactness in a 1st-countable space implies sequential compactness
• Proof of path connected implies connected
• Proof that the Rational Numbers are totally disconnected

Berno Binkert, 28.8.2018 10:10-10:30

Statements:

• 3 equivalences for compactness in metric spaces
• Proof of compactness in a 1st-countable space implies sequential compactness

Exercises:

• Show that the standart topology in a finite metric space is discrete
• Show that a sequence (in X a topological space, united with its limit is compact in X

Paul, 28.8.2018 10:50-11:10

• State the 3 equivalences of a cpt metric space
• Prove that a cpt first countable space is seq cpt
• Give an example of a continuous map F : X -> Y such that the induced group morphism from the fundamental group of X to the fundamental group of Y is not injective and not surjective. I think he wanted me to find a F that is surjective as well since if we don't require F to be surjective we can simply pick F to map every point of S1 to a unique point of S1 .

Raphael, 28.8.2018 11:10-11:30

• 3 equivalences cpt in metric space
• Proof 1st countable cpt implies sequentially cpt
• Example of two top. Spaces, which are homotopic but not homeomorphic (S1 and R2\0)
• Proof pathconnected implies connected

Joël, 28.8.2018 13:30-13:50

• Prove that \(\mathbb{Q}\) is totally disconnected.
• Under what condition is the limit of a sequence (if it exists) unique? Answer is Hausdorff, then I had to prove it.
• Example of two topological spaces that are not homeomorphic but that are homotopy equivalent. I also chose \(\mathbb{R}^n \setminus \{0\}\) and \(S^{n-1}\), then I had to give the outline of the proof that \(\mathbb{R}^2\) is not homeomorphic to \(\mathbb{R}^n\) for \(n \geq 3\).

Andrin 29.8.2018 11:50-12:10

• finde a continuous bijection which is not a homeomorphism (Id on a space with more then one point where definition space is equipped with discrete topology and image space equipped with trivial topology)
• prove f: X -> Y continuous, X cat, Y HD implies f closed.

- He also wanted the proof of Y Hd, A \sub Y cpt implies A closed and subsequently Y Hd, A \sub Y cpt, y \in Y\setminus A implies exists U,V open with A \sub U and y \in V and U\cap V=\emptyset.

• Then he wanted me to guess the bijection between {f: S1 -> X continuous } modulo homotopic and \(\pi_1(X,x0)\) modulo conjugation. The bijection is \(f \mapsto B_\gamma(f)=\gamma *f *\gamma ^-1\) where gamma is a path from x0 to f(0). We identify the circle with the interval [0,1] where 0=1. He wanted me to proof well defindness so showing that the path gamma is replacable and surjectivit.