User:Leo algknt: Difference between revisions

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'''Question 1.'''
'''Question 1.'''


A. Prove that the set of all 3-colourings of a knot diagram is a vector space over {\mathbb F}_3. Hence \lambda(K) is always a power of 3.
A. Prove that the set of all 3-colourings of a knot diagram is a vector space over {\mathbb F}_3. Hence \lambda(K) is always a power of 3


Attempt: Let $D$ be a knot diagram with $n$ crossings. There are $n$ arcs. Let $a_1, a_1, \ldots, a_n \in \mathbb{Z}/3\mathbb{Z}$ represent the arcs. Now let $a,b,c \in \mathbb{Z}/3\mathbb{Z}$ , with
Attempt: Let <math>D</math> be a knot diagram with <math>n</math> crossings. There are <math>n</math> arcs. Let <math>a_1, a_1, \ldots, a_n \in \mathbb{Z}/3\mathbb{Z}</math> represent the arcs. Now let <math>a,b,c \in \mathbb{Z}/3\mathbb{Z}</math> , with


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Revision as of 23:12, 23 May 2018

Home Work 1

Question 1.

A. Prove that the set of all 3-colourings of a knot diagram is a vector space over {\mathbb F}_3. Hence \lambda(K) is always a power of 3

Attempt: Let be a knot diagram with crossings. There are arcs. Let represent the arcs. Now let , with

$ a\wedge b =

\left\{ \begin{array}{cc} a, & a = b\\ c, & a\not= b \end{array} \right. $

At each crossing we have a linear equation x


Let

B. Prove that \lambda(K) is computable in polynomial time in the number of crossings of K.

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