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A picture may be worth a thousand words; therefore most of the mathematicians use images to
demonstrate mathematical concepts like Riemann sums, Topological surfaces, graphs, etc. Then why do
they not use images to demonstrate groups as well? This is where the area of visualization of group theory
comes into play. For this purpose, the most significant method was invented by the British mathematician
Arthur Cayley and called it Cayley diagrams. There are other visualization techniques such as
multiplication tables, object with symmetries, etc. However, a Cayley diagram has two major advantages
compared to other methods. First, it clearly represents a group as a set of elements and the second is by
taking the group‟s generators into account. Cayley diagrams fully illustrate the interaction among the
elements of a group.
In our work, we mainly focused on drawing diagrams of Dihedral groups ( ) to illustrate order of each
element, inverse of every element and their positions in the diagrams. Furthermore, we determined all
subgroups without any calculations. In this study, we divided n in to two cases as odd and even. We have
used the Dihedral group of order 2n.
Using the idea in Cayley diagrams, we have drawn a diagram for ., for which we use two n-gons one
within the other. Starting from the identity element, we give the correct positions for all the elements
of . Inner n-gon contains order 2 elements only and the outer n-gon contains the other elements with
different orders with an interesting relationship between the divisors of n. After drawing the required
diagram, we have discussed the orders of all the elements of just by looking at it. Also, we can find the
positions and inverse of each element by folding the diagram through its symmetric axis. The number of
subgroups of a Dihedral group is given by the formula, ( ) ( ), where ( ) is the number of
divisors of n and ( )is the sum of the divisors of n.
Using the relation in between the divisors of n and the order of each element of , we found all
subgroups of just by looking at the diagram.
Our main aim was to find a graphical method which is easier than using formulas to explain Dihedral
group of any order. We concluded that any given Dihedral group , the order of each element, inverses
of each element and their positions and all its subgroups can be derived easily by visualization through an
appropriate Cayley diagram. |
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