Difference between revisions of "Cauchy-davenport"
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The Cauchy-Davenport theorem states that for all nonempty sets <math>A,B \subseteq \mathbb{Z}/p\mathbb{Z}</math> , we have that | The Cauchy-Davenport theorem states that for all nonempty sets <math>A,B \subseteq \mathbb{Z}/p\mathbb{Z}</math> , we have that | ||
| − | <cmath>|A+B| \ | + | <cmath>|A+B| \geq \min\{|A|+|B|-1,p\},</cmath> |
where <math>A+B</math> is defined as the set of all <math>c \in \mathbb{Z}/p\mathbb{Z}</math> that can be expressed as <math>a+b</math> for <math>a \in A</math> and <math>b \in B</math>. | where <math>A+B</math> is defined as the set of all <math>c \in \mathbb{Z}/p\mathbb{Z}</math> that can be expressed as <math>a+b</math> for <math>a \in A</math> and <math>b \in B</math>. | ||
Revision as of 13:32, 20 September 2019
The Cauchy-Davenport theorem states that for all nonempty sets 
, we have that
![\[|A+B| \geq \min\{|A|+|B|-1,p\},\]](http://latex.artofproblemsolving.com/0/9/f/09f3124f98a7f614911df0ae09fe454a96e533b2.png)
where 
is defined as the set of all 
that can be expressed as 
for 
and 
.
