granpa said:
The term "absolute" means "frame invariant". Proper acceleration is the acceleration measured by an accelerometer, it's norm is the norm of the four-acceleration. Therefore proper acceleration is frame invariant aka absolute.Antenna Guy said:
I disagree. The paradox is a mistake in the treatment of a non-inertial reference frame as an inertial reference frame. Students need to learn to identify and avoid non-inertial reference frames much more than they need to learn how to calculate simultaneity in an accelerating reference frame.Fredrik said:
I think (I hope) you meant to say;DaleSpam said:
neopolitan said:
There's no need to have a clock at all, and if we do put a clock on the ship, we can program it to display whatever we want. You can't say that there's one correct way to program the clock without first specifying exactly what it's supposed to display.neopolitan said:
Then what are you implying? Are you just saying that if we only consider A's point of view, there's no way to get a result that looks like a paradox? This is true, but it isn't a resolution of the paradox. It's just a way to ignore it.neopolitan said:
It's the resolution of the apparent paradox. It's what's missing in the naive and incorrect calculation that says that A will only age 14.4 years. It's what you have to add to the incorrect calculation to make it correct.neopolitan said:
I had a discussion with DrGreg about that https://www.physicsforums.com/showthread.php?t=249815", and we agreed that the standard definition of simultaneity is sufficient to define a coordinate system on a region that contains the world line. It may not be well-defined very far from the world line, but at least it's well-defined in the immediate vicinity.RandallB said:
I'm thinking NO.Fredrik said:
I don't understand your comments. If you have a pair of synchronized clocks then two events are simultaneous if and only if they occur when their local clocks read the same. That's what it means to synchronize a pair of clocks.RandallB said:
There is, but since it depends on the distance between the ship and earth, it's negligible when the distance is small, and goes away if we consider the distance to be zero.neopolitan said:
DaleSpam said:
Yes, this is what is meant by the relativity of simultaneity.RandallB said:
You can apply it to the co-moving inertial frame at every point on the world line. This gives you a local definition of simultaneity. This defines the spatial coordinates of a coordinate system, and the proper time along the world line defines the time coordinate. So the result is a local coordinate system that's defined in a region that contains the world line.DaleSpam said:
Al68 said:
granpa said:
So your "resolution" of the twin paradox is that the apparent paradox is irrelevant because people would choose to only consider A's frame?neopolitan said:
Fredrik said:So your "resolution" of the twin paradox is that the apparent paradox is irrelevant because people would choose to only consider A's frame?
Fredrik said:
What do you mean by "stationary"? It seems to me you don't have anything rigorous in mind, but just a vague notion of "at rest relative to some large landmarks". But what makes you think the Earth and the target star are themselves "stationary"? (this question is of course meaningless unless you can provide some definition of what it means to be stationary in an absolute, non-relative sense, and relativity says the fundamental laws of physics will appear exactly the same in all inertial frames so there can't be a procedure involving fundamental physics that will pick out one frame as a special 'stationary' frame).neopolitan said:
Because in "real life" we use all sorts of practical definitions that don't have much to do with fundamental physics. For instance, on Earth we may use "stationary" as a shorthand for "stationary relative to the Earth", which is not to imply we have any reason whatsoever to believe the Earth itself is "stationary" in any absolute sense (and if you really believe in absolute motion, then if the Earth was moving at 2,000 km/s in the direction of some star in an absolute sense, anyone traveling at 2,000 km/s relative to the Earth in the direction away from that star would have to be stationary in the absolute sense, even though they are clearly not stationary relative to the Earth).neopolitan said:
I honestly don't know what you're thinking about this whole thing. I asked you a bunch of questions during our discussion that would have clarified a lot, but most of them were ignored.neopolitan said:
neopolitan said:
JesseM said:
granpa said:
How does that make a difference? You used it too, you must have meant something by it.neopolitan said:
And how does that square with the statement "it is hard to credit that the crew of a spaceship will consider themselves to be stationary, contrary to the evidence provided by the receding Earth and the approach of the target star." Again, this is totally meaningless unless you have some definition of "stationary" in mind, if not this has about as much sense as "it is hard to credit that the crew of a spaceship will consider themselves to be sludoolaxeriffic, contrary to the evidence provided by the fact that they ate peanut butter sandwiches for lunch".neopolitan said:
Fredrik said:
Do you understand that even if you and I are two non-accelerating inertial observers, the rate that I see your clock ticking visually will not be the same as the rate that your clock is ticking in my own inertial coordinate system, due to the Doppler effect? Because of the Doppler effect, if I am moving away from you I'll see your clock ticking at a rate that's even slower than the rate given by the time dilation equation, and if I'm moving towards you I'll see your clock ticking faster than my own, not slower (basically this is because if you're moving away, the light from each successive tick has a longer distance to travel to reach me than the previous one, while if you're coming towards me, the light from each successive tick has a shorter distance to travel than the previous one). If you want an analysis of what is seen in the twin paradox based on the relativistic Doppler effect, see The Doppler Shift Analysis from the twin paradox FAQ, along with the diagram (fig. 2) in the too many explanations section. You're right that there's no discontinuity here, each twin sees the other twin's clock ticking slower when they're moving apart and faster after the turnaround when they're approaching each other, but the accelerated twin sees the change happen midway through the trip while the inertial twin sees the other twin turnaround much closer to the time that they reunite than the time that they departed from one another.neopolitan said:
JesseM said:
JesseM said:
I think that this is meaningless unless you define what you mean by "consider themselves to be stationary". For example, right now I consider myself to be stationary in the ordinary intuitive sense where stationary is just defined relative to the surface of the Earth, but I don't consider myself to be stationary on the level of real physics because I know there is no way to define "stationary" in terms of the laws of physics.neopolitan said:
What definition? That's exactly what I'm asking you for, the definition that your imaginary astronauts are using. If you can't provide one, your statements are meaningless.neopolitan said:
Yes, the commonsense definition is useful in the real world because we live on the surface of a large planet, but it's unclear how to generalize this commonsense definition to a situation in space where you have lots of large astrophysical bodies in motion relative to one another. Similary, the words "up" and "down" have utility on planet Earth, in space not so much.neopolitan said:
And how do I know whether something in space is "moving" or "not moving"? Is the Earth moving, for example? Again, when used by us planetbound beings it's always implicit that "not moving" means at rest relative to the surface of the Earth.neopolitan said:
The point is that while the commonsense usage of "stationary" has a well-understood implicit meaning on Earth, I have no idea what you want it to mean for your hypothetical astronauts, and you seem unwilling to think about how you might define it in order to make sense of your statement.neopolitan said:
This is a 9-page thread, it's not really reasonable to expect anyone who jumps into a long thread to look through every prior post before saying anything. It's not like I made a definite accusation that you were ignorant of the Doppler effect, I asked you "Do you understand that even if you and I are two non-accelerating inertial observers..."? A polite "yes, I understand" would suffice (and giving me the post# where you discussed it previously would be helpful although not necessary), no need for the digs about me being a "funny fellow". I think my question was reasonable, since you specifically asked about what would be seen visually, and said there'd be no discontinuity, but you didn't mention the Doppler effect or indicate that you understood that there is absolutely no conflict between this lack of a visual discontinuity and the type of simultaneity discontinuity Fredrik was talking about when we switch from one coordinate system to another midway through a problem.neopolitan said:
JesseM said:
JesseM said:
"We" would? In what context? In conversation around the dinner table? When making course calculations? In any situation where math was involved, we'd be using some definite coordinate system; in ordinary conversation, it would probably mean relative to stuff on the ship, and if the astronauts talked about the ship's speed at all, it would probably be an implicit reference to whatever coordinate system they were using when doing course calculations. In any case, if you admit this has no relevance to physics, this whole conversation is irrelevant to the purpose of this forum and I don't know why you felt the need to bring it up.neopolitan said:
Nope, just have some cartoons from college on my personal website, it's kind of creepy that you would go there and then bring it up in order to get in another little dig at me.neopolitan said:
I don't think you're "sorry" at all, or you would have just edited the comment out.neopolitan said:
When "checking the context" involves reading an entire 9-page thread, yes it is unreasonable. If you've spent any time on this forum you'll know it's extremely common for people to jump into respond to individual comments during the course of long discussions (as it is on every other discussion forum I've participated in).neopolitan said:
That wouldn't be a bad thing to write, but it's unreasonable of you to expect that anyone jumping into a discussion would always have to preface their questions with such comments, or to interpret such questions/comments in totally thin-skinned and defensive ways like your paraphrase "you must be wrong. You must be so happy that I turned up to explain stuff for you." The point of this forum is explaining physics concepts, if someone occasionally explains something you already know (as has happened to me plenty of times), a simple "yes, I already knew about that" is fine, no need to scold the person or treat it as a personal attack (especially since the explanation could still be helpful to others reading the thread).neopolitan said: