Questions tagged [manifolds]
For questions on manifolds of dimension $n$, a topological space that near each point resembles $n$-dimensional Euclidean space.
6,367
questions
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2answers
18 views
If $\omega$ is a differential $4$-form on a $10$-manifold $M$ then $\omega \wedge d\omega$ is exact
Let $\omega$ be a differential $4$-form on a $10$-manifold $M$. I am trying to show that $\omega \wedge d\omega $, which is a $9$-form, is exact.
Clearly $\omega \wedge d\omega$ is closed, because $...
0
votes
0answers
7 views
calculating the colored HOMFLY polynomial for rational links
There are simple recursive ways to calculate the Jones, Alexander and HOMFLY polynomial for rational links. Is there such a formula, or any known way at all, to calculate the the colored HOMFLY ...
1
vote
2answers
27 views
How to obtain real vector from abstract tangent vector in the case of the manifold $\mathbb R^n$
I know that for every $p\in\mathbb{R}^n$ the map
\begin{align}
\Phi_p\colon\mathbb{R}^n&\to T_p\mathbb{R}^n\\
v&\mapsto D_{v,p}
\end{align}
is an isomorphism, where
\begin{align}
D_{v,p}\...
2
votes
0answers
52 views
Torus bundle over sphere
Let $G$ be a Lie group and let $T\cong\mathbb C/\mathbb Z^2$ be a compact complex torus.
What is an example of a nontrivial $G$-fiber bundle $$T\hookrightarrow E\to S^2\; ?$$
1
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0answers
8 views
Structure preserving maps between manifolds with boundary
While learning the basics about smooth manifolds with boundary in this semesters' course about analysis on manifolds, there's a seemingly basic property I didn't find anywhere.
Namely I want to ...
1
vote
1answer
28 views
Confusion about the Definition of Smooth Functions on a Manifold
I am slightly confused about the definition of smooth functions on a smooth manifold given in An Introduction to Manifolds by Loring Tu (Second Edition, page no. 59). The definition is given below.
I ...
0
votes
1answer
33 views
Definition of topological manifolds with dimension zero/locally euclidean of dimension zero
A topological $n$-manifold $M$ is locally Euclidean of dimension $n$ (each point of $M$ has a neighborhood that is homeomorphic to an open subset of $\mathbb{R}^n)$.
But what does locally Euclidean ...
0
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1answer
46 views
$S^2$ as a totally real submanifold of $\mathbb{CP}^1\times \mathbb{CP}^1$
Can the sphere $S^2$ be embedded in $\mathbb{CP}^1\times \mathbb{CP}^1$ as a totally real submanifold?
0
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0answers
19 views
The manifold hypothesis and classification of datasets
In the picture below, figure 1 and 3 show a 2-dimensional manifolds while figure 2 and 4 show those same manifolds embedded in a 3-dimensional space. My question is: In the pair of figures 1 and 2, is ...
2
votes
1answer
25 views
Average of a tensor with respect to a group action
Consider a smooth manifold $M$ (assume it boundary-free and orientable) and a tensor field $\mathcal{G}\in\Gamma(\otimes^hTM\otimes^kT^*M)$. Let $\Phi:\mathbb{T}^p\times M \rightarrow M$ be a torus ...
0
votes
1answer
47 views
Finding stable and unstable manifolds
Consider the system
$x ^ { \prime } = 4 x + 2y ^ { 3 } \\
y ^ { \prime } = - 3 x$
Question: Find the stable and unstable manifolds around the fixed point $(0,0)$ and
and sketch the phase portrait ...
0
votes
1answer
30 views
Thurston Compactification
Sorry in advance for my English.
I'm studying the Thurston compactification from the Jean-Pierre Otal's book "The Hyperbolization Theorem for Fibered 3-Manifolds".
I have a question, what $\mathbb{...
0
votes
1answer
23 views
Tu's An Introduction to Manifolds - Section 26.2 Cohomology of a circle, tabular form.
I'm trying to understand how to use the Mayer-Vietoris sequence to compute Cohomologies. There's a small chapter in Tu's Introduction to Manifolds explaining the basics, with some basic theory.
More ...
0
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0answers
42 views
Topological Manifold which does not admit Riemann surface structure?
I have a question motivated by some examples in section 4.2 of Schlag's A Course in Complex Analysis and Riemann Surfaces.
Example 1. Any smooth, orientable two-dimensional submanifold of $\mathbb{R}...
1
vote
1answer
32 views
Hairy ball theorem for $S^2$ [duplicate]
It is well-known that there is "no" nowhere vanishing continuous tangent vector field on $S^2$, by the so-called Hairy-ball theorem. But then, is there a continuous tangent vector field on $S^2$ which ...
0
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0answers
22 views
Coordinate curve depends on $t$
I have a basic problem to understand the coordinates $(x)$
on a manifold $M$. The coordinate vector is $$\frac{\partial}{\partial x^j}$$
which says that the tangent vector depends on $x^j$ but the ...
0
votes
1answer
24 views
Coordinate vector and curve
How can I see that the $j$-th coordinate vector $$\frac{\partial}{\partial x^j}$$ on a manifold is the velocity vector to the $j$-th coordinate curve parametrized by $x^j$. Both, by velocity and ...
0
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0answers
19 views
Book definition verification of boundary manifolds
Let $M$ be an n-dim topological manifold with boundary, A chart for M is a pair $(U,\phi)$ where $\phi: U\rightarrow \mathbb{R}^n$ is a map such that $\phi$ is a homeomorphism onto an open subset of $\...
-1
votes
0answers
32 views
Boundary points and manifolds
Let $M$ be an $n$ manifold with boundary. Fix $p\in U$. Let $(U,f)$ be a boundary chart, for which $f(p)\in f(U)\cap \partial{\mathbb{H}^n}$. Then, for any other boundary chart $(V,g)$, such that $p\...
1
vote
0answers
16 views
Parametrizing a manifold
I have a conceptual question about parametrizing a 2-manifold in $\mathbf R^3$ and computing its area/volume. If there is anything that I didn't phrase correctly, I would be glad to change it.
What ...
0
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0answers
15 views
The geometric of a.e. differentiable function [closed]
For smooth functions, we can explore their geometrics by a differential manifold or Riemann manifold. I wonder are there math tools for the geometrics of broader cases, such as a.e differentiable ...
1
vote
0answers
34 views
“Linear approximation” to topological sheaf $\mathrm{Imm}(-,N)$
I'm reading these notes
Here, I am regarding $\mathrm{Imm}(-,N)$ as a presheaf on the open sets of some manifold $M$
If we take $\mathrm{Imm}^f(-,N)$ to be the sheaf of formal immersion (an element ...
0
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0answers
19 views
Every closed orientable surface is Riemann surface
I want to prove that every closed orientable surface is a Riemann surface i.e. every closed orientable surface admits a complex structure. Several proofs are available which make use of classification ...
0
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0answers
26 views
Hint in an exercise, manifold and its dimension
I'm triynig to solve this exercicse but I have a trouble:
I don't know what is the dimension of $G$, it is finite or not? but I suppose the base is $(x_1,...x_n)$ so I can wrote any vector as follows ...
1
vote
1answer
30 views
Set of orthogonal matrices is a compact manifold
The following is a problem from Munkres's Analysis in Manifolds.
Problem: Let $\mathcal O(3)$ denote the set of all orthogonal 3 by 3 matrices, considered as a subspace of $\mathbf R^9$.
(a) ...
1
vote
1answer
51 views
Simplicial Homology of Matrix Groups
It is a well known fact that the matrix groups $GL_n(\Bbb R), SL_n(\Bbb R), \dots$ can be considered as submanifolds of $\Bbb R^{n^2}$.
I did not yet attend a lecture on Lie groups, so I donāt know ...
2
votes
2answers
64 views
Solid torus is a 3-manifold.
I'm working on a problem from Munkres' Analysis on Manifolds, where I must show that a solid torus is a 3-manifold, and that the boundary of this manifold is the torus $T$.
Letting $g$ be the ...
0
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0answers
18 views
May's proof - An $R$-orientation of $M$ determines an $R$-orientation of $\partial M$
In section 21.4 of May's A Concise Course in Algebraic Topology, there is a proposition that an $R$-orientation of $M$ determines an $R$-orientation. The proof is not so short, so I leave the link of ...
0
votes
1answer
20 views
lie bracket is vanish iff translation is commute
I want to prove following claim:
Given two vector fields $X$ and $Y$ on smooth manifold $M$, $[X,Y]=0$ if and only if $\Phi^X_t \circ \Phi^Y_s \circ \Phi^X_{-t} \circ \Phi^Y_{-s}(q)=q$ for $\forall ...
4
votes
1answer
54 views
Rational cohomology of punctured closed non-orientable manifold.
Let $M-\{p\}$ be a punctured closed non-orientable even-dimensional manifold. If $M=\mathbb{R}{P}^{2}$ then $\mathbb{R}P^{2}-\{p\}$ is an open Mobius strip. This implies that $H^{*}(\mathbb{R}P^{2}-\{...
3
votes
1answer
48 views
The function $R(x)=rank(Df(x))$ is locally constant on $\Omega$, i.e. it is constant in a neighbourhood of every point $x \in \Omega$.
Let $f:\Bbb R^n \to \Bbb R^n$ be a mapping of class $C^1$. Prove that there is an open and dense set $\Omega \subseteq \Bbb R^n$ such that the function $R(x)=rank(Df(x))$ is locally constant on $\...
2
votes
0answers
26 views
Reason for defining $df(v)=D_vf$
I'm reading "A Visual Introduction to Differential Forms and Calculus on Manifolds", specifically the section on equivalence of directional derivatives to vectors acting as operators on functions ...
0
votes
1answer
17 views
Showing that the differential is an immersion
If $f: X \rightarrow Y$ is an immersion of smooth manifolds, then show that $df: TX \rightarrow TY$ is also an immersion.
The definition of immersion(when dim$X <$ dim$Y$) that I have is that for ...
2
votes
1answer
50 views
Proving $R_{ij;m}=g^{kl} R_{ikjl;m}$.
In the coordinate $\{x^i\}$, the Riemann curvature tensor can be written as
$$
R=R_{ijkl}\,dx^i\otimes dx^j\otimes dx^k \otimes dx^l
$$
and the Ricci curvature can be written as
$$\text{Ric}=R_{...
3
votes
0answers
47 views
Show that S is an embedded $k$-submanifold of $M$
Assume $M$ is a smooth manifold and $S$ is a subset of $M$ such that each point $p\in S$ has a neighborhood $U \subseteq M$ such that $S\cap U$ is an embedded $k$-submanifold of $U$.
I want to show ...
1
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0answers
33 views
Exact one form on non-simply-connected manifold
Let $M$ be a smooth $n-$dimensional manifold and $\alpha\in\Lambda^1(M)$ a smooth $1-$form. Let $N\subset M$ be an embedded submanifold where $\alpha|_N=0$. If $d\alpha=0$ on the whole $M$, can I say ...
0
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0answers
59 views
Question about James Munkres's “Analysis on Manifolds”, p.112, Theorem 14.1
I'm an engineer who self-studies pure math in my free time, so I apologise in advance if this is a silly question. I am currently reading "Analysis on Manifolds" by James Munkres. Theorem 14.1 states ...
0
votes
1answer
32 views
Subjects needed to learn Manifolds
The way I go about learning mathematics by my self is the following: I set up a goal, for example, the most recent one was "Complex analysis", and then I learn my way up to my goal, for example, what ...
1
vote
1answer
30 views
Riemannian Exponential Map is a Homeomorphism outside the Cut Locus
Let $M$ be a connected and complete Riemannian manifold. The Hopf-Rinow Theorem guarantees that $Exp_p$, for any $p \in M$, is defined on all of $T_p(M)$. Further, this map is a diffeomorphism on a ...
2
votes
0answers
41 views
Does Alexander duality hold for compact, orientable Homology sphere?
The Alexander duality Theorem is usually stated for a triangulable pair $(\mathbb S^n, Y)$ where $Y$ is a subset of the standard sphere $\mathbb S^n$. My question is: Does the duality also hold if we ...
3
votes
1answer
50 views
Regarding equivalent definitions of Euclidean Submanifolds in Gallot, Hulin and Lafontaine's book Riemannian Geometry
In the book Riemannian Geometry by Gallot, Hulin and Lafontaine, a proposition which characterises equivalent definitions of submanifolds is given as follows:
1.3 Proposition The following are ...
0
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1answer
37 views
Notation in differential forms
In a paper I've found a repeated notation with differential forms and, since I have never seen it before, my question is if there is a misprint or if it is an operation I don't know.
I have a smooth ...
1
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0answers
19 views
Levi-Civita connection from idempotents
Let $(M,g)$ be a closed Riemannian manifold. Let $V$ be a smooth complex vector bundle over $M$. We can write $V$ as the range of an idempotent $E$ in a matrix algebra $M_n(C^\infty(M))$ acting on a ...
1
vote
1answer
69 views
Argument in a proof for scalar maximum principle
I'm trying to understand how an assertion made in the proof of the scalar maximum principle follows from the compactness of the manifold we're working with. The situation is as follows:
I ...
0
votes
1answer
26 views
On the geometric realization of a finite abstract simplicial complex which is connected, orientable $3$-manifold without boundary
Let $\Delta$ be an abstract simplicial complex on finitely many vertices and $|\Delta|$ be it's geometric realization. (https://en.m.wikipedia.org/wiki/Abstract_simplicial_complex)
If $|\Delta|$ is ...
2
votes
1answer
70 views
Second derivative test (and sign of laplacian at critical points) for manifolds
I'm trying to understand in more detail some of the justifications for a proof of the second derivative test for Riemannian manifolds, given below:
I've never seen the Laplacian interpreted as an ...
0
votes
0answers
19 views
Prove that the boundary orientation of $S^k = \partial B^{k+1}$ is the same as its preimage orientation
I would like to verify if my approach to this problem is the correct one or not. This problem is from "Differential topology" by Victor Guillemin and Allan Pollack . More specifically is the problem 3....
2
votes
1answer
32 views
Find the rate at which distances decrease in stereographic projection
I want to map a 3D space onto the inside's surface of a sphere.
The 3D space is represented by points (x,y,z) where the z axis is the height.
The first thing I did was to use the following equation ...
0
votes
1answer
57 views
Equivalent definitions of the Möbius band
In Manfredo do Carmo's Riemannian Geometry, the Mƶbius band is defined as the quotient of the cyllinder $S = \{ (x, y, z) \in \Bbb{R}^3 \ : \ x^2 + y^2 = 1, \ - 1 < z < 1\}$ by the group $\{A, ...
0
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0answers
12 views
existence of a transverse homotopic function - example
I would like to find an example for the following theorem:
Let $f: M \to N$ be a smooth map. There exists a map arbitrarily close to $f$, and homotopic to it, which is transverse to $Z$.
In the ...
