I present the following two expressions. One gives approximately a squared number and the other approximately a triangular number.
I hope you like the expressions.
Have a nice day !!
These results are already blogged about by me.
So in the just above if we increase k by 1 ( k is large) then the two results (with k and k plus 1) when divided give n squared in the first case and 2 n squared plus n in the second.
Essentially with the binomial in the RHS do the following operation
Put k as say 1000. Do the binomial sigma.
Then put k as 1001. Do the binomial sigma.
If we divide, then we get n squared in the first case and 2 n squared plus n in the second.
Is it not interesting?
Is it true for all functions?
Yes, it seems so.
So, the following seems to be the case.
Here is a workout on Wolfram Alpha to support my just above statement
The result by dividing above two is 3. And 3 is what the function of n all about.
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