/sci/ - Science & Math

File: 17 KB, 264x190, MSP9550176d2fbf9h28f56i000025id758762ei455g.gif [View same] [iqdb] [saucenao] [google]

Anonymous Thu May 21 05:58:54 2020 No.11696066 [Reply] [Original]

If sin(x y) looks like this, then what does sin(x y z) look like???

>>	Anonymous Thu May 21 06:32:46 2020 No.11696139 Different

>>	Anonymous Thu May 21 06:50:09 2020 No.11696190 >>11696066 because that’s a level set you fucking retard

>>	Anonymous Thu May 21 07:06:47 2020 No.11696228 >>11696066 this is not "sin(xy)". it's z = sin(xy). so do you mean z = sin(xyz), or w = sin(xyz) where w is an additional dimension ?

>>	Anonymous Thu May 21 07:21:18 2020 No.11696265 >>11696228 nvm, already fapped to the pic I'm good.

>>	Anonymous Thu May 21 07:46:35 2020 No.11696334 >>11696265 you want more fap material ?

>>	Anonymous Thu May 21 07:52:19 2020 No.11696350 >>11696066 you can plot it like a heat map on a 3d object

>>	Anonymous Thu May 21 07:56:32 2020 No.11696361 >>11696334 Yes

>>	Anonymous Thu May 21 07:58:01 2020 No.11696366 >>11696066 >what does sin(x y z) look like waves but in 4D, maybe it is possible to project it in 3D somehow.

>>	Anonymous Thu May 21 07:59:03 2020 No.11696370 >>11696350 >you can plot it like a heat map on a 3d object based, never realized it

>>	Anonymous Thu May 21 08:00:04 2020 No.11696375 >>11696228 >w = sin(xyz) where w is an additional dimension yes probably OP meant that

>>	Anonymous Thu May 21 08:01:05 2020 No.11696378 >>11696190 >t.brainlet

>>	Anonymous Thu May 21 08:04:34 2020 No.11696386 I made a python script that plots colored cubes in 3d, taking on the color of the magnitude of a 3d function. Not sure where I have it, it's didn't look too good, but gave you a hint at the function behavior. Used it for divergence.

>>	Anonymous Thu May 21 08:12:09 2020 No.11696402 >>11696361 https://www.math3d.org/jUI1xEdJ

>>	Anonymous Thu May 21 10:39:29 2020 No.11696710 File: 229 KB, 216x261, 1583901583676.gif [View same] [iqdb] [saucenao] [google] >>11696402

>>	Anonymous Thu May 21 12:22:08 2020 No.11696994 >>11696228 you could map w as color

>>	Anonymous Thu May 21 13:21:53 2020 No.11697195 >>11696066 >tfw I will never know what a 3d sin wave looks like.

>>	Anonymous Thu May 21 13:23:48 2020 No.11697207 >>11697195 It's basically a sound wave.

>>	Anonymous Thu May 21 13:24:49 2020 No.11697211 >>11696066 That, moving

>>	Anonymous Thu May 21 13:28:57 2020 No.11697228 >>11696228 No I typed Sin (x y) on wolfram alpha and that image is what popped up.

Anonymous Thu May 21 13:44:09 2020 No.11697285

>>11696228
Okay I understand now maybe we could map a 4 dimensional sin wave on a 3D surface plane the same way we map a 3D sin wave on 2D surface???

Out of curiosity I would like see what z = sin (xyz) as well.

Pic related is a z = sin(xy) on a 2d plane using color as a representation of its z value.

>>	Anonymous Thu May 21 13:45:30 2020 No.11697294 File: 31 KB, 264x268, MSP83817cii5a28b6fdfh600005583e3hga07gcc4i.gif [View same] [iqdb] [saucenao] [google] >>11697285 Oops I forgot the picture

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