Subsets (⊂) and Partitions

Lets look at two more fundamental relationships of sets that are closely related: subsets and partitions.

In the Venn Diagram on the left, I am visually representing three fundamental insights.  (1)  All the elements of set A are also elements of set C. (2) All the elements of set B are also elements of set C. (3)  There are elements in set C that are not elements of A or B.  Thus, set A and B are subsets of set C.  The symbol for subset is ⊂.

Now, in the Venn Diagram on the right, we have a slightly different relationship.  Statements (1) and (2) are still accurate.  However, there are no elements in set C that are not elements of A or B.  In other words, all elements of C are either elements of A or B (but not both of them).  In this case, sets A and B are partitions of set C.  They are unique forms of subsets.

You may not realize this, but the most common use of subsets and partitions can be found in the visual display of organizational charts.  Most of the time, such relationships are represented as flow charts.  Although they can tell you which individual (“element”) is part of which group (“set”), they tend to visually emphasize the hierarchy of authority to the audience.  I personally believe  organizational relationships can be best represented as subsets and partitions.

For example, If Manager John Doe manages office A and B, I can show Office A and B as the subset of Manager John Doe.  This relationship would show that both manager and the workers in Office A and B have certain responsibilities in common with each other.  It would also show that Manager John Doe is responsible for things that are outside the scope of the employees in Office A and B.  Now if Manager John Doe’s only responsibilities is to manage the work of Office A and B, then this relationship should be visually displayed as a partition.

The development of this and other concepts of set theory can be traced back to one man: Georg Cantor (1845-1918), a German mathematician.  Cantor published a six part treatise on set theory from the years 1879 to 1884.  These publications defined most of the concepts of set theory we teach in secondary school and college.  He accomplished much during his career, despite much opposition to his ideas from prominent colleagues.  Explore his interesting life.

In the entrance lounge of the institute for mathematics of the Martin-Luther University at Halle-Wittenberg in Germany. There, you will find a display of a bust representing Georg Cantor.  He was a professor of mathematics at this institution from 1879 to 1913. His work on set theory was among his many contributions to math he made during his time there.

Although Georg Cantor is considered a German mathematician, he was actually born in Russia.  A plaque also marks the place of his birth on Vasilievsky Island in Saint Petersburg. “In this building was born and lived from 1845 till 1854 the great mathematician and creator of set theory Georg Cantor.”

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