File[Where it is.swf] - (2.05 MB)
[_] [?] Anonymous 03/30/10(Tue)21:32 No.1223272
where it is
>> [_] Anonymous 03/30/10(Tue)21:42 No.1223274
wait, wat?
>> [_] Anonymous 03/30/10(Tue)21:45 No.1223277
I'm high as fuck, this made sense to me.
>> [_] Anonymous 03/30/10(Tue)21:45 No.1223278
...what?
>> [_] Anonymous 03/30/10(Tue)21:46 No.1223280
i came
>> [_] Adam 03/30/10(Tue)21:49 No.1223281
The key to understanding what is said in this flash is to visualize the concepts through the
perspective of a tri-axial -- or 3-dimensional -- space. The clip of the documentary is
discussing a computer's analysis of a projectile's trajectory based on integral calculations.
>> [_] Anonymous 03/30/10(Tue)21:50 No.1223282
>>1223278
pretty much the missiles on board compute knows where the ship is and knows where the target is,
it can recorded it's movements from launch and make corrections to make sure it hit the target.
>> [_] Anonymous 03/30/10(Tue)22:01 No.1223293
The missile knows where it is at all times! It knows this because it knows where it isn't. By
subtracting where it is, from where it isn't, or where it isn't from where it is-whichever is
greater-it obtains a difference or deviation. The guidance subsystem uses deviations to generate
corrective commands to drive the missile from a position where it is, to a position where it
isn't and arriving at a position where it wasn't, it now is. Consequently the position where it
is, is now the position that it wasn't and it follows that the position that it was, is now the
position that it isn't.
>> [_] Anonymous 03/30/10(Tue)22:02 No.1223294
In the event that the position that it is in, is not the position that it wasn't; the system has
acquired a variation! D= The variation being the difference between where the missile is, and
where it wasn't. If variation is considered to be a significant factor; it too may be corrected
by the "GEA". However the missile must also know where it was. The missile guidance computer
scenario works as follows: Because a variation has modified some of the information the missile
has obtained, it is not sure just where it is. However it IS sure where it isn't-within
reason-and it knows where it was. It now subtracts where it should be, from where it wasn't-or
vice verse-and by differentiating this from the algebraic sum of where it shouldn't be and where
it was; it is able to obtain the deviation and it's variation which is called ERROR.
>> [_] Adam 03/30/10(Tue)22:05 No.1223295
>>1223282
Hey, did I do alright explaining it as well?
>> [_] Anonymous 03/30/10(Tue)22:09 No.1223298
This is scat, thats all I can see and hear...
>> [_] Anonymous 03/30/10(Tue)23:06 No.1223368
oh now i get it
>> [_] Anonymous 03/30/10(Tue)23:07 No.1223371
MY BRAIN IS FULL OF FUCK
>> [_] Anonymous 03/30/10(Tue)23:12 No.1223377
rocket is hot
>> [_] Anonymous 03/30/10(Tue)23:26 No.1223395
whatthefuckamireading.jpg
>> [_] Anonymous 03/30/10(Tue)23:28 No.1223396
damn you narrator!! now i dont even know where I am!!
>> [_] Anonymous 03/30/10(Tue)23:38 No.1223408
>>1223396
Do you know where you arn't and do you know where you was?
>> [_] Anonymous 03/30/10(Tue)23:52 No.1223424
im 13 and know exactly what this is
>> [_] Anonymous 03/30/10(Tue)23:58 No.1223431
>>1223295
no, too long. The missile tries to reach a target. Along the way it corrects its path for errors.
