Paths

JaneFairfax · 2008-07-03 13:27:46

Let

be defined by . Then p is a path in from (1,0) to (−1,0). In general: If a and b are points in a topological space X, a path in X from a to b is a continuous function p : [0,1] → X such that p(0) = a and p(1) = b. In our example, our path is the upper semicircle of the unit circle centred at the origin.

Last edited by JaneFairfax (2008-07-03 13:39:02)

JaneFairfax · 2008-07-03 22:35:25

Let

where q(t) = −p(t) for each t ∈ [0,1] be another path in (the lower semicircle of the same unit circle). Suppose for each θ ∈ [0,1], we have a function defined by .

Note that F[sub]θ[/sub] is a path from (1,0) to (−1,0) for each θ ∊ [0,1] and F[sub]0[/sub](t) = p(t) and F[sub]1[/sub](t) = q(t) for each t ∊ [0,1]. F[sub]θ[/sub] is a semiellipse with semimajor axis 1 and semiminor axis |1−2θ| (except when θ = ½, when its a straight-line path).

Now, what happens when θ varies continuously from 0 to 1? Yes, the path p transforms continuously to q via the various intermediate paths F[sub]θ[/sub]. We say that the path p is homotopic to q in

.

JaneFairfax · 2008-07-04 08:53:18

The function F is called a homotopy from f to g. We can write

to mean that F is a homotopy from f to g.

JaneFairfax · 2008-07-05 00:56:52

And we write

. F can be seen as fixing the subset A while deforming f continuously into g. In particular, if p and q are paths, we can have a homotopy H which fixes the start and end points i.e. .

Ricky · 2008-07-05 08:04:17

I see you're starting to get into algebraic topology. Is this self study? What book are you using?

JaneFairfax · 2008-07-05 08:51:29

Yes, its mainly self-study but any help from anybody will be greatly appreciated.

Im using A First Course in Algebraic Topology (2005) by B.K. Lahiri (one of the books I bought at Waterstones next to University College London on my visit to Central London the other day). I hate to say that its not very well written (though its a second edition and the author says mistakes in the original edition have been corrected). Hopefully they are not serious mistakes, and a person like me should have little or no problem seeing them for what they are.

Im also supplementing my reading with whatever material I can find online.

Last edited by JaneFairfax (2008-07-05 08:58:34)

JaneFairfax · 2008-07-05 12:23:24

By the way, MathsIsFun, if you need a page on algebraic topology on the website, I can write one up for you up to and including the defintion of fundamental group.

JaneFairfax · 2008-07-13 02:06:05

Let a, b, c be points in a topological space X. Suppose

are paths from a to b and are paths from b to c. First we define the product path of two paths, :

Basically,

is a path from a to c via b.

Then we have this reault:

It must be noted that it is important for the homotopies to be relative to {0,1}. If p and q (likewise r and s) are only homotopic, not homotopic relative to {0,1}, then the product paths

and need not be homotopic!

Here is an example to show why. Let

and define paths as follows:

Then p and q (likewise r and s) are only homotopic, not homotopic relative to {0,1} and the product paths

and are definitely not homotopic. The former is the unit circle centred at (0,0) and the latter the unit circle centred at (0,2) as (0,0) is not in X, there is no way a loop enclosing (0,0) can be continuously deformed in the Cartesian plane into a loop that does not enclose (0.0).

JaneFairfax · 2008-07-13 09:47:22

Let

. The null path at a is the constant path at a i.e. the path where for all .

JaneFairfax · 2008-07-13 12:54:20

Let

be a path from a to b. The inverse path of p is the path from b to a where for all .

JaneFairfax · 2008-07-23 21:04:31

Last edited by JaneFairfax (2008-07-23 21:14:02)

JaneFairfax · 2008-07-26 04:41:27

JaneFairfax · 2008-07-26 09:42:28

JaneFairfax · 2008-08-07 07:08:23

Math Is Fun Forum

#1 2008-07-03 13:27:46

Paths

#2 2008-07-03 22:35:25

Re: Paths

#3 2008-07-04 08:53:18

Re: Paths

#4 2008-07-05 00:56:52

Re: Paths

#5 2008-07-05 08:04:17

Re: Paths

#6 2008-07-05 08:51:29

Re: Paths

#7 2008-07-05 12:23:24

Re: Paths

#8 2008-07-13 02:06:05

Re: Paths

#9 2008-07-13 09:47:22

Re: Paths

#10 2008-07-13 12:54:20

Re: Paths

#11 2008-07-23 21:04:31

Re: Paths

#12 2008-07-26 04:41:27

Re: Paths

#13 2008-07-26 09:42:28

Re: Paths

#14 2008-08-07 07:08:23

Re: Paths

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