Four Fours/Table of 4s: Difference between revisions
From charlesreid1
(Created page with "==One 4== Believe it or not, the rules allow you to do quite a bit with a single 4. The rules say you may combine 4s with any mathematical symbol except numbers. Thus, in add...") |
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2 = \sqrt{4} \times \left( \dfrac{4}{4} \right) | 2 = \sqrt{4} \times \left( \dfrac{4}{4} \right) | ||
</math> | |||
<math> | |||
3 = \dfrac{ \ln{(4+4)} }{ \ln{\sqrt{4}} } | |||
</math> | </math> | ||
Revision as of 23:18, 9 April 2017
One 4
Believe it or not, the rules allow you to do quite a bit with a single 4. The rules say you may combine 4s with any mathematical symbol except numbers. Thus, in addition to 4 alone, we also have:
$ 1 = i^{4} $
$ 2 = \sqrt{4} $
Two 4s
$ 2 = \dfrac{4+4}{4} $
$ 2 = \sqrt{4} \times \left( \dfrac{4}{4} \right) $
$ 3 = \dfrac{ \ln{(4+4)} }{ \ln{\sqrt{4}} } $
$ 4 = 4 \times \left( \dfrac{4}{4} \right) $
$ 4 = 4 + 4 - 4 $
$ 5 = 4 + \dfrac{4}{4} $
$ 8 = 4 \times \left( \dfrac{4}{\sqrt{4}} \right) $
$ 12 = 4+4+4 $
$ 18 = 4 \times 4 + \sqrt{4} $
$ 20 = 4 \times 4 + 4 $
$ 32 = 4(4+4) $
$ 64 = \dfrac{4^4}{4} $
$ 252 = 4^4 - 4 $
$ 254 = 4^4 - \sqrt{4} $
$ 258 = 4^4 + \sqrt{4} $
$ 260 = 4^4 + 4 $
$ 1,024 = 4^4 \times 4 $
$ 4,096 = (4+4)^{4} $
$ 65,536 = (4 \times 4)^{4} $