
#19
Feb2212, 08:06 AM

P: 188

Thank you Kai. I got it backwards. The probability of an obtuse angle is 0.75, acute is 0.25.
I did find an easier way. There is an obtuse angle iff the arc length between any two points is greater than one half of the circumference. So the problem is equivalent to picking two points from the interval [0,1], thus subdividing the interval into 3 subintervals, and finding the probability that any subinterval has length >1/2. The result is as Kai found. 



#20
Feb2212, 01:44 PM

P: 26

Hi guys.
Thanks very much for the thoughts! A variety of ideas is already presented here, so I don't have much to add besides this little experiment when I simulated 1,000,000 events (circle was simplified to 1,296,000 points) and evaluated the largest angle of every triangle: The largest angle is a decisive factor for knowing the type of a triangle. I found it interesting, because this interval of 90180 degrees (meaning an obtuse triangle) is three times as big as interval of 6090 degrees (meaning an acute triangle) while the ratio of P(obtuse) and P(acute) is also exactly three. So I wanted to see how the likelihood of those angles is distributed. 


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