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Summary

This Venn diagram is meant to represent a relation between


Set theory: The subset relation

The relation tells, that the set is empty:    =

In written formulas:

The relation tells, that the set is empty:   

Under this condition, several set operations, not equivalent in general, produce equivalent results.
These equivalences define the subset relation:

Venn diagrams written formulas
       =             
       =             
       =             
       =             
       =             
       =             
       =             
       =             

The sign tells, that two statements about sets mean the same.
The sign = tells, that two sets contain the same elements.


Propositional logic: The logical implication

The relation tells, that the statement is never true:   

In written formulas:

The relation tells, that the statement is never true:   

Under this condition, several logic operations, not equivalent in general, produce equivalent results.
These equivalences define the logical implication:

Venn diagrams written formulas
                   
                   
                   
                   
                   
                   
                   
                   

Especially the last line in this table is important:
The logical implication tells, that the material implication is always true.
The material implication is the same as .
Note: Names like logical implication and material implication are used in many different ways, and shouldn't be taken too serious.

The sign tells, that two statements about statements about whatever objects mean the same.
The sign tells, that two statements about whatever objects mean the same.



Important relations
Set theory: subset disjoint subdisjoint equal complementary
Logic: implication contrary subcontrary equivalent contradictory


Operations and relations in set theory and logic

 
c
          
A = A
1111 1111
 
Ac  Bc
true
A ↔ A
 
 B
 
 Bc
AA
 
 
 Bc
1110 0111 1110 0111
 
 Bc
¬A  ¬B
A → ¬B
 
 B
 B
A ← ¬B
 
Ac B
 
A B
A¬B
 
 
A = Bc
A¬B
 
 
A B
1101 0110 1011 1101 0110 1011
 
Bc
 ¬B
A ← B
 
A
 B
A ↔ ¬B
 
Ac
¬A  B
A → B
 
B
 
B =
AB
 
 
A = c
A¬B
 
 
A =
AB
 
 
B = c
1100 0101 1010 0011 1100 0101 1010 0011
¬B
 
 
 Bc
A
 
 
(A  B)c
¬A
 
 
Ac  B
B
 
Bfalse
 
Atrue
 
 
A = B
Afalse
 
Btrue
 
0100 1001 0010 0100 1001 0010
 ¬B
 
 
Ac  Bc
 B
 
 
 B
¬A  B
 
AB
 
1000 0001 1000 0001
¬A  ¬B
 
 
 B
 
 
A = Ac
0000 0000
false
A ↔ ¬A
A¬A
 
These sets (statements) have complements (negations).
They are in the opposite position within this matrix.
These relations are statements, and have negations.
They are shown in a separate matrix in the box below.


This work is ineligible for copyright and therefore in the public domain because it consists entirely of information that is common property and contains no original authorship.

File history

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Date/TimeThumbnailDimensionsUserComment
current22:46, 7 May 2010Thumbnail for version as of 22:46, 7 May 2010384 × 280 (7 KB)Watchducklayout change
17:59, 26 July 2009Thumbnail for version as of 17:59, 26 July 2009384 × 280 (12 KB)Watchduck
16:13, 10 April 2009Thumbnail for version as of 16:13, 10 April 2009615 × 463 (4 KB)Watchduck{{Information |Description={{en|1=Venn diagrams of the sixteen 2-ary Boolean '''relations'''. Black (0) marks empty areas (compare empty set). White (1) means, that there ''could'' be something. There are corresponding diagrams of th

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