This rule appeared to me in a dream.
This rule appeared to me in a dream.
24 comments
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Asexual: y = 0
Hypercosexual: y = cosh(x)
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I would've assumed we a(ce)symptotically approach zero so maybe something like ±e^(-x)?
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Sinus sexual: f(x) = sin x
Cubic sexual: f(x) = x³
Hyperbole sexual: f(x) = 1/x
Exponential sexual: 2^x
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Sinful: f(x) = sin x
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Tangentially speaking...
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Pansexual: y = tan(x)
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Are we doing cutesy metaphor here or should I dedicate actual time to working out some best of fits here based on reported attraction and relative phenotype in given populations?
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Y=Y
Transbian
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That's not a function though
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I understand it's a bit hard to wrap your head around, but that is how it is.
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I get that straight is a straight line, and "cosexual" is the cosine function, but can someone explain the joke for the other two?
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For y = x^2, both x and -x equal to the save value of y.
For example: 22 = -22 = 4.
For the y = sqrt(x), for every positive value of x, there is positive and negative value of y.
For example: sqrt(4) = -2 = 2.
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erm actually (in the nerdiest voice possible) it'd be more accurate to say x² = y or y = ±sqrt(x) instead of y = sqrt(x) since the square root symbol only gives the principal root
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I guess I have no idea how the math symbols are supposed to relate to sexual orientation. Can you help with that part?
Also, IIRC square root of 4 has only one answer: 2, but negative 2 squared is equal to 4. The functions are asymmetric that way? Is that incorrect? This is all from vague memories of high school and college math.
Does the square root function always give a positive and negative answer? And we in society just kind of forgot about the negative one?
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x=a is pansexual.
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Hmm. Now I need a function to draw various genitalia and erogenous bits.
24 comments
I am Riemann-Function sexual because all the holes I get are imaginary.
That sounds complex