Comment by BrandoElFollito
1 year ago
As a physicist, this makes sense. Pi = 3, pi^2 = 10, which is g
Not sure why everyone is surprised.
Ah, and a year is pi*10e9 seconds (IIRC)
1 year ago
As a physicist, this makes sense. Pi = 3, pi^2 = 10, which is g
Not sure why everyone is surprised.
Ah, and a year is pi*10e9 seconds (IIRC)
As a computer scientist this is not surprising either. After all there are only three numbers: 0 1 and n.
One of my old physics professors said something similar - there are only three numbers in the world - 0, 1, and infinity. No wait, zero is just one divided by infinity, so there are only two numbers, zero and one. So if the answer is not zero, it must be one. (ie, how to justify dimensional analysis and ignore any dimensionaless constant).
Hysterical, especially for the fact that he quotes 'two' and 'three' in the sentence itself.
Another one would be philosophy: there’s nothing, something and everything. Or logic: ∃, ¬∃ and ∀. Just rambling here, but seems like universal concepts across fields.
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He already got rid of "three" and just needed a little help to get rid of "two." Since we already have 0 and (almost) everything else can just be "one more" than something else, we only need 0 and one more ... or 1.
One and Done!
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Remember that `i` is also a number. As in `for i = 0 to n`.
Don’t believe those mathematicians when they tell you that `i` is “imaginary”.
All numbers are imaginary.
sqrt(-1) should have been called w, for "weird".
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You mean the legendary “i”. There is no n.
And -0 and NaN
And int_max
That's a implementation detail.
Yea if you're some classical snob.
- Posted by the quantum gang
As a physicist? When we did physics at school, and we were solving problems, the answer was always a number together with its unit. pi² might be 10 because it is a pure number, but g can never be 10, because it is an acceleration, a physical quantity, so it must be 10 of some unit.
Oh, come on, it is inches / (day * "hold on"). Everyone knows this, this is physics for art majors 101.
In guess it's a good thing I left physics after my PhD.
I mean it is pretty common to set c=1 though.
Not if you define g as the real number before m/s^2, in the expression '10 m/s^2'.
In middle school physics lessons this makes teachers to hate you (it's their job to ensure that you do not do this), but after that, this has advantages time to time.
.. I remember hearing an anecdote that ancient Greeks did not know that numbers can be dimensionless, and when they tried to solve cubic equations, they always made sure that they add and substract cubic things. E.g. they didn't do x^3 - x, but only things like x^3 - 2*3*x. I don't think this is true (especially since terms can be padded with a bunch of 1s), but maybe it has some truth in it. It is plausible that they thought about numbers different ways than we do now, and they had different soft rules that what they can do with them.
I assumed the pi / g connection was because cows that accelerate in a vacuum are spherical.
According to the Banach–Tarski paradox, if you accept the Axiom of Choice, you can disassemble a spherical cow and put the parts back together such that you end up with two cows of the original size. How exactly this affects Cow Economics is not well-understood.
I think it was Gauss who proved that any convex cow would work equally well. But we need to assume an infinitesimally thin and infinitely long tail as boundary condition.
Pi seconds is a nano-century. So 1 year = pi*10^7 seconds
as a mechanical engineer, can confirm. also, e ≈ pi ≈ 3
in fact, e = 2, made rather abundantly clear in "finite difference" calculus, and also that in computer science, the "natural" log base 2.
A year is pi 10^7, or pi 1e7.
On the other hand, 10 e9 = 10 * 10^9.
3600 seconds per hour, times 3*8 is only about 80,000 seconds a day. You can’t get to a billion from there.
The pi in pi*10^9 seconds clearly comes from the fact that Earth’s orbit is circular.
Nore sure if serious or not, but anyway:
1) it isn't circular, although just barely (it's an ellipse) 2) the length of the day is not really related to the length of a year, and the second was defined as 1 / (24 * 60 * 60) = 1 / 86400 of the mean solar day length
So this is really just a coincidence, there is no mathematical or physical reason why this relationship (the year being close to an even power of 10 times pi seconds) would exist.
Definitely not serious :)
But from the fact that an Earth year happens to be roughly pi*10^7 seconds long, it follows that in 10^7 seconds Earth travels about two radians, or one orbital diameter, and equivalently that the diameter of Earth's orbit is roughly 10^7 seconds times Earth's orbital speed.
pi * 1e7