Template:Proof
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This is a box for proofs. This calls Template:Databox but it automatically appends Template:Qed in the end of the contents and adds the page to Category:Pages with proofs.
Usage
You type:
{{Proof
| title=Proof that the root of any integer is either an integer or irrational
| contents=Assume <math>\sqrt[n]{m}</math> is {{nowrap|''p'' / ''q''}}, where {{nowrap|''p'', ''q'' ∈ ℤ<sup>+</sup>}} and {{nowrap|gcd(''p'', ''q'') {{=}} 1}}. Then
{{nowrap|''p<sup>n</sup>'' / ''q<sup>n</sup>'' {{=}} ''m''}}, and {{nowrap|''p<sup>n''</sup> {{=}} ''mq<sup>n''</sup>}}. This means ''p'' is divisible by ''m''. Therefore, there exists some integer ''r'' such that {{nowrap|''p'' {{=}} ''mr''}}, so we now have {{nowrap|''m<sup>n</sup>r<sup>n</sup>'' {{=}} ''mq<sup>n</sup>''}}. Dividing both sides by ''m'' gives {{nowrap|''m''<sup>{{nowrap|''n'' − 1}}</sup>''r<sup>n''</sup> {{=}} ''q<sup>n</sup>''}}. This means that ''q'' must also be divisible by ''m'', which is a contradiction, since ''p'' and ''q'' were assumed to be relatively prime.
}}
You get:
Proof that the root of any integer is either an integer or irrational
Assume [math]\displaystyle{ \sqrt[n]{m} }[/math] is p / q, where p, q ∈ ℤ+ and gcd(p, q) = 1. Then
pn / qn = m, and pn = mqn. This means p is divisible by m. Therefore, there exists some integer r such that p = mr, so we now have mnrn = mqn. Dividing both sides by m gives mn − 1rn = qn. This means that q must also be divisible by m, which is a contradiction, since p and q were assumed to be relatively prime. [math]\displaystyle{ \square }[/math]
Note: Pipe characters (|) must be escaped as {{!}} or {{pipe}}, equals signs must be escaped as {{=}} (this may apply to tags as well, e.g. <div style{{=}}"…">), and other special characters and character sequences may need to be escaped accordingly, except for ones inside <nowiki>, <pre>, <math>, and <syntaxhighlight> tags.