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#1 20100707 19:13:47
Look at this triangle, relativity has missed something, t on z,yplaneGiven that compared to rest, every speed is both positive and negative, we have that compared to the constant speed c: Last edited by LQ (20100707 19:45:50) I see clearly now, the universe have the black dots, Thus I am on my way of inventing this remedy... #2 20100707 22:42:02
Re: Look at this triangle, relativity has missed something, t on z,yplaneHi LQ;
Never asked you, what do you think of relativity? In mathematics, you don't understand things. You just get used to them. I have the result, but I do not yet know how to get it. All physicists, and a good many quite respectable mathematicians are contemptuous about proof. #3 20100707 23:03:28
Re: Look at this triangle, relativity has missed something, t on z,yplaneEinsteins equation is correct. xwise. I see clearly now, the universe have the black dots, Thus I am on my way of inventing this remedy... #4 20100708 03:52:31
Re: Look at this triangle, relativity has missed something, t on z,yplane
Spacial coordinates are preserved under rotation. That is, if I take any system, it remains exactly the same if I rotate the entire thing by a given xy, xz, or yz angle. Thus, any line segement for which you wish to do calculations on may first be rotated so that it lines up precisely with the xaxis. Therefore, one must only consider the xaxis. "In the real world, this would be a problem. But in mathematics, we can just define a place where this problem doesn't exist. So we'll go ahead and do that now..." #5 20100708 04:04:34
Re: Look at this triangle, relativity has missed something, t on z,yplaneRicky, that explanation doesn't really solve any problem, or? I see clearly now, the universe have the black dots, Thus I am on my way of inventing this remedy... #6 20100708 23:28:55
Re: Look at this triangle, relativity has missed something, t on z,yplane
You seem to be claiming that time dilation is different in different directions, no? "In the real world, this would be a problem. But in mathematics, we can just define a place where this problem doesn't exist. So we'll go ahead and do that now..." #7 20100709 00:04:29
Re: Look at this triangle, relativity has missed something, t on z,yplaneHear me out. Whatever is x is the movement directions, however it rotates. I see clearly now, the universe have the black dots, Thus I am on my way of inventing this remedy...
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