Difference between revisions of "Solution to Principle of Insufficient Reason Introductory Problem 1"
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| − | + | ==Problem 1== | |
| + | <math>\text{Principle of Insufficient Reason} \implies \text{max} ([\text{hexagon}])=[\text{Regular Hexagon}]=\boxed{\frac{3}{2} \sqrt{3}}</math> | ||
| + | ==Olympaid problem== | ||
| + | Principle of Insufficient Reason <math>\implies</math> the max of <math>e</math> is achieved when <math>a=b=c=d</math> so <cmath>4a+e=8</cmath> <cmath>4a^2+e^2=16</cmath> <cmath>\implies e=\frac{16}{5}</cmath> | ||
Latest revision as of 23:10, 19 January 2024
Problem 1
![$\text{Principle of Insufficient Reason} \implies \text{max} ([\text{hexagon}])=[\text{Regular Hexagon}]=\boxed{\frac{3}{2} \sqrt{3}}$](http://latex.artofproblemsolving.com/0/1/d/01d4e7859a653ab781ace366e069c14896050b44.png)
Olympaid problem
Principle of Insufficient Reason 
the max of 
is achieved when 
so ![\[4a+e=8\]](http://latex.artofproblemsolving.com/4/4/7/44700b46470c7300ac2808daa936b7ea50c422f2.png)
![\[4a^2+e^2=16\]](http://latex.artofproblemsolving.com/7/a/3/7a3ce5bd7305e8b88991ae4d757b579143a6940d.png)
![\[\implies e=\frac{16}{5}\]](http://latex.artofproblemsolving.com/c/5/4/c5415043b67ca95b1b15dc7d594f562afeeb159c.png)
