TEDxBoulder - Thad Roberts - Visualizing Eleven Dimensions

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Uploaded by TEDxTalks on Dec 28, 2010

In this talk Thad Roberts reveals a theory that could prove to be the key in simplification of the various complexities of quantum mechanics, space, and time.

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Education

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Standard YouTube License

105 likes, 5 dislikes

Top Comments

They should have given Thad way more time. And a glass of water.

MetalHelen376 1 year ago 26
This is an interesting topic and Thad does a great job at making it even better. Great Job!!

taintrain 1 year ago 6

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All Comments (39)

Dude if I have sex on space rocks will I come up with some crazy theory like that? Only one way to find out.

juanthestabber 1 week ago
This faggot had gay sex with three men on moon rocks. True Sturoy.

lllllllllIIIIIIIIIIl 1 week ago
Why is every good teacher in the world not one of my teachers. String theory has never been clearer to me.

TheWetSnow 3 weeks ago
So... reality is just a load of ballocks?

fburton8 1 month ago
Part 4:

The final two dimensions are time resonance of the quanta and superspatial velocity of the quanta.

Hope that helps

doughenn in reply to doughenn (Show the comment) 1 month ago
Part 3:

Note that even if two quanta move away from eachother in super-space, the distance between them in regular space is always the PLANCK LENGTH (extremely small). Thus when the quanta move away from eachother, spacetime density or curvature decreases, and when they move towards eachother, spacetime density/curvature increases (without real distance ever changing). The last 3 dimensions are known as interspace, and define the shape of the quanta.

doughenn in reply to doughenn (Show the comment) 1 month ago
Part 2:

Distance between objects in the normal, Newtonian world ONLY measures the NUMBER of QUANTA between objects (so every distance in the real world is equal to a number of planck lengths = number of quanta between point A and B). However these quanta CAN MOVE around, in 3 other dimensions (superspatial volume).

doughenn in reply to doughenn (Show the comment) 1 month ago
Nevermind I'll just split it up - appreciate and understand that each of the marbles is hanging out at some point, (X,Y, Z) in normal, observable coordinate space. You CANNOT, because of the limits of space quanta, know the position of any object closer than "what marble is it in?" (i.e., to know anymore about position than that would be to stop talking about 3-space, to be below the planck length, to be "cutting the gold atom" - it's not gold, you're no longer dealing with 3-space geometry.

doughenn in reply to vedhasp (Show the comment) 1 month ago
sure dude - I typed up a response to your questions, it takes a few moments of intutive thinking, but when it clicks it's like a whole new beautiful world of thinking. I actually physically felt awesome when I got it haha. Anyways the response is 500 characters too long for a youtube comment, is there another way I can get it to you? Thanks man.

doughenn in reply to vedhasp (Show the comment) 1 month ago
i did not understand the slide at 6:17, what he calls as "geometric picture". He lost me there, so if somebody can explain, please do, I did no understand anything beyond.

What I see in that picture are marbles, of diameter equal to quantized length=min possible unit of length, that are moving in 3 dimensions. I cannot see how I see 11 dimensions in that picture. If I begin to get clearer understanding on that part, hopefully I will be able to make sense of rest of the lecture. Please help!

vedhasp 2 months ago

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TEDxBoulder - Thad Roberts - Visualizing Eleven Dimensions

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