The Pattern of Pi in the First 13 Digits
π is a #transcendent #mathematicalconstant, a defined as the ratio of a #circle’s #circumference to its #diameter, It is approximately equal to 3.14159. It has been represented by the Greek letter “#π " since the mid-18th century, though it is also sometimes spelled out as “#pi". It is also called #Archimedesconstant. According to those whom know, π is conjectured to satisfy a specific kind of #randomness , "but to date, no proof of this has been discovered.” I’m sure there must be other people who ‘discovered’ patterns but I’ve never seen them. Maybe this a first? Somebody wanna take it from here? #DanielTammet? 👀😏
Let’s change that. #Impossible just means nobody tried hard enough to find out sometimes.
3.141592653589
Is a #pattern seen from these numbers? Yes!
Let’s do some addition.
3 + 1 = 4. OK we got the first 3 numbers down. Any more? Yes.
4 + 1 = 5. Now we’re up to the fifth number. Any more? Yes.
But we stop adding in these two 3 part pairs and do it as two separate pairs added that equal each other.
...9265
9+2=11 5+6=11
Adding is working so let’s try one more time. Let’s do it again like the first set of 4 digits. Maybe it’s repeating? I didn’t look, its all ‘your’s.’
Adding is working so let’s try one more time. Let’s do it again like the first set of 4 digits. Maybe it’s repeating? I didn’t look, its all ‘your’s.’
3589
3+5=8 8+9=17 no 10’s so 7. Why? Because I said so, its my Pi pattern. 😁
Did we ’solve’ Pi? Hardly! But we found a pattern and ’they’ said it was random. Doesn’t look random to me.
Did we ’solve’ Pi? Hardly! But we found a pattern and ’they’ said it was random. Doesn’t look random to me.
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