Difference between revisions of "Iff"

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An iff statement <math>p\iff q</math> means <math>p\implies q</math> <b>and</b> <math>q\implies p</math> at the same time.
 
An iff statement <math>p\iff q</math> means <math>p\implies q</math> <b>and</b> <math>q\implies p</math> at the same time.
  
==Example==
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==Examples==
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In order to prove a statement of the form "<math>p</math> iff <math>q</math>," it is necessary to prove two distinct implications:  
 
In order to prove a statement of the form "<math>p</math> iff <math>q</math>," it is necessary to prove two distinct implications:  
  
 
* if <math>p</math> then <math>q</math>
 
* if <math>p</math> then <math>q</math>
 
* if <math>q</math> then <math>p</math>
 
* if <math>q</math> then <math>p</math>
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===Results===
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[https://artofproblemsolving.com/wiki/index.php/Godel%27s_First_Incompleteness_Theoremm Gödel's Incompleteness Theorem]
  
 
===Videos===
 
===Videos===

Revision as of 17:21, 31 July 2020

Iff is an abbreviation for the phrase "if and only if."

In mathematical notation, "iff" is expressed as $\iff$.

It is also known as a biconditional statement.

An iff statement $p\iff q$ means $p\implies q$ and $q\implies p$ at the same time.

Examples

In order to prove a statement of the form "$p$ iff $q$," it is necessary to prove two distinct implications:

  • if $p$ then $q$
  • if $q$ then $p$

Results

Gödel's Incompleteness Theorem

Videos

Mathematical Logic ("I am in process of making a smoother version of this" -themathematicianisin).

See Also

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