About the same as saying "an object travels at the speed of light through distance". In other words it doesn't mean much of anything.
Ah, I see you've edited your post ten minutes after I posted my reply, without informing me. But you still need to answer the question: what is "t_B"? Also, why is there all of a sudden a minus sign? And what happened to the need for a second clock? However, none of it matters, because, as I said in my previous post: you've now answered your own OP. You've derived speed = c, which is exactly what you were asking about, so now you know what it means. I'm glad to have helped you figure it out!Please Register or Log in to view the hidden image!
I do admit I've been charitably interpreting it, but perhaps, because his source for the statement is still absent, that was too optimistic of me.
To make sense of how things work in special relativity, Minkowski came up with the concept of the invariant space-time interval, which formally puts time on an equal footing with space. Well not quite - there is a conversion factor c and a minus sign involved for the time interval, but otherwise it's treated like a 'normal' dimension rather than a parameter. it leads to hyperbolic geometry rather than the familiar elliptic Euclidean geometry. Read the intro here, then just the upper left definition for space-time 4-vector: http://hyperphysics.phy-astr.gsu.edu/hbase/Relativ/vec4.html Below linked YouTube vid may further help:
An idle search at pseudoscience, and looks like I wasted effort on a soon-to-be-banned member (check information tab): http://www.sciforums.com/members/willem.288558/ http://www.sciforums.com/members/talanum46.288682/ Unless perchance twins have joined up around the same time......
Which one? I'm not aware of any such "proclamation" by Einstein. Without more context, I'm not even sure what Brian Greene is talking about here. What is a "speed through spacetime" anyway? How does he define that, and how is it different from the usual "speed through space"? If I had to guess, I'd venture the opinion that maybe Brian is thinking about the velocity 4-vector or something (because the "time" component of that vector is the speed of light, c), but there's no way to tell from just this quote.
' The Elegant Universe.' Paperback page 50. Yes, I think he is describing the 4-vector, the posts from others above point to this as well. Here's a longer quote centered on my last book quote: I seem to make sense of it. At first I think I was confusing myself thinking how does this tie-in with the world line idea, which is just the static line or ''static path'' of all events of the object/car in spacetime. I was saying to myself-- ''you don't move along a world line''. Had to get the idea of a world line out of my head. I hope you got the book, because I'm not going to type out the whole chapter.
When an object travels at the speed of sound it creates a "sonic boom": it creates sound. Therefore I must assume that when an object travels at the speed of light, it creates light: it bursts into flames. Please Register or Log in to view the hidden image!
Quotes: Einstein's is number 13 down. The other stuff is interesting also. https://en.wikiquote.org/wiki/Spacetime
A sonic boom is created by the shockwave produced when an object travels faster than sound. There is an analogous phenomenon when a particle travels through an optically dense medium faster than the phase velocity of light for that medium. This is called Cerenkov (or Cherenkov) radiation: https://en.wikipedia.org/wiki/Cherenkov_radiation
One of my top two non-fic books. My brain had stretch marks after reading it. (And I read it about 5 times.)
I read "Tim and Tobias" a few times. Please Register or Log in to view the hidden image! Not because it was difficult (it was black band, the highest) but because I enjoyed it.
No object - by which I mean something that has mass - can ever travel at the speed of light (in vacuum). As exchemist said, objects can sometimes travel faster than the speed of light in some kind of medium, in which case they produce a sort of "light boom" (Cherenkov radiation) akin to the sonic boom produced by objects travelling fast than the speed of sound in a medium.
I still can't tell for sure from the extra stuff you quoted. It's frustrating because what I really want to know is the maths he is using to conclude that his "speed through spacetime" is c. I have read the book - a long time ago - but don't own a copy. I found it a frustrating read, for exactly the same reason that I've given here. It is very light on maths and heavy on hand-wavy descriptions. I understand that it was written for a popular audience, but I was keen to actually get a better working understanding of string theory, not descriptions by analogy. This is not to diss Brian Greene. I've seen him talk in various forums - not necessarily just about physics - and he's a good communicator who says sensible things. I guess that book wasn't really written with people like me in mind.
Agree. I was written with people like me in mind - an armchair science-wannnabe without the post-sec math chops. I found it brain-stretching because of the ability to intuit the concepts - got me a long way toward being able to conceptualize 4+ dimensions. It also allowed me to understand, in very concise terms, exactly how GR and QM are incompatible - where the infinities actually arise. I can now describe the basics in just a couple of paragraphs. Wonderful to have some personal mysteries solved and tied with a bow. (For the same reason you don't read pop-sci books, I don't watch pop-sci shows. They're barely more than fluff, and I've already read the book they're based on.)
"Tim and Tobias" was challenging, but not too taxing. It was a black-band book, which meant it was at the highest-level available, but the pictures kept the storyline moving along at a brisk pace. Please Register or Log in to view the hidden image!
You still haven't explained what a black-band book is, or what these levels are. I'm going to take a shot in the dark and guess that these are for grade school children's books, and the difficulty ratings thereof.