Jimmy87 said:If a healthy heart rate on Earth is 70bpm, does this mean that (hypothetically of course) in such a place your heart would beat 0.7bpm (70/100)
Nugatory said:No. Your heart would still beat at 70 beats per minute.
However, your minutes would be "longer" than the minutes of the person far removed from the surface of the neutron star. That doesn't affect you at all; the anomaly will only show up if you compare times with the other person.
You will look at your wristwatch and see that it reads noon. One minute later your wristwatch will read 12:01 and your heart will have beaten seventy times; there's no problem here.
Meanwhile, the distant person has set his wristwatch so that it reads noon at the same time that your watch reads noon (this phrase "at the same time" is slippery and dangerous, but we don't need to go there now). After one minute has passed for you and your heart has beaten seventy times, your wristwatch will read 12:01 - but his wristwatch will read 12:10 and his heart will have beaten seven hundred times. You're both getting seventy beats per minute, and nothing weird is happening at all, unless you compare your wristwatches.
Jimmy87 said:Why then, do people say that the effects of general relativity are irreversible. An example is if someone moves relative to someone else at constant velocity then each person argues about who is younger and this situation is like two sides of the same coin. However if you were to accelerate to near the speed of light and travel at this speed for 20 years and then come back then something like 38,000 years would have gone by on Earth and this is not like special relativity because it is not reversible, i.e. 38,000 years really would have gone by and the Earth may no longer be there.
Nugatory said:If you're hearing that, it's because you're listening to someone who understands neither general relativity nor special relativity (although to be fair, this is a very widespread misunderstanding).
The differential aging effect that you're describing (two people separate, then find that one of them has experienced more time and aged more than the other when they reunite) is a phenomenon of special relativity, not just general relativity. The Twin Paradox FAQ at http://math.ucr.edu/home/baez/physics/Relativity/SR/TwinParadox/twin_intro.html is a good introduction to what's really going on.
The only thing that I will add is that aging is never "reversible". Your heart beat seventy times while your wristwatch ticked off one minute, and that's a minute of your life that is in your past forever. Likewise, the other person outside of the gravity well has aged ten minutes and experienced seven hundred heartbeats and there's no way of reversing that process either. It's always a one-way street from cradle to grave.
Jimmy87 said:Thanks again, and thank you for giving me a reliable link! So for the person who's watch has ticked 10 minutes and 700 heart beats have occurred then can you say that for the person near the neutron star, he will live 100 times longer relative to that person but in his own frame he just lives a normal life as far as he is concerned, is that right? What would be the equivalent case in SR, i.e. if I move relative to you in an inertial reference frame and the factor of time dilation is 100 then is it the exact same situation as for GR that we have been discussing?
Matterwave said:You certainly would not be alive if you were on the surface of a neutron star, but that's because you'd be crushed to a thin layer of atoms by the gravity of the neutron star, not because of time-dilation effects.
Time runs slower deeper in a gravitational well, as observed by an observer in a higher part of that gravitational well. You cannot observe "your own" time dilation.
Say here I am sitting on the surface of the Earth, and you are on the international space station, looking down at me. If you see my watch tick, you'd notice that my watch was ticking slightly slower than your watch. This is what we call gravitational time dilation. But it's not like I can tell, sitting here on Earth by myself, that my "time is running slow". I'm perfectly fine. I think time passes normally.
Jimmy87 said:If I am understanding what you mean here then are you saying that if I let my stop watch tick for 1 minute on Earth and then go near a neutron star and do the same thing then that minute would appear to last for the same amount of time? So I wouldn't be like "hey, the minute hand on my stop clock is going around much slower than it did on Earth". How can that be true! That seems really weird. How can you go into a really strong gravitational field (which distorts time) and not notice time dilation yourself as measured from your own watch? Why is this?
Because to notice stuff you use your brain, which also runs slower in the gravitational field.Jimmy87 said:How can you go into a really strong gravitational field (which distorts time) and not notice time dilation yourself as measured from your own watch?
Matterwave said:Yes. If you go to the surface of a neutron star, other than the dying horribly due to the intense gravity, you would not be able to tell something weird was going on with the time. You can never observe YOUR OWN time move at anything other than 1 second every second.
Why is this? Think about it the other way. How could you ever tell that your watch was ticking slowly? Think this through. If your stop watch ticks slowly (as seen from afar), so does EVERYTHING. So does your brain, so does your biological clock. So does every clock you have with you. How can you ever tell that something was wrong with the time?
Everything slows down by the same factor. That's why it is called "time dilation", and not just "clock dilation" or "brain dilation".Jimmy87 said:Wow, so your brain processing ability slows down by the same factor which means you can't perceive it?
Jimmy87 said:Wow, so your brain processing ability slows down by the same factor which means you can't perceive it? That's so weird. Is it true that the equations of general relativity have to be applied to GPS systems in order for them to work correctly? So would the computer system driving them have to actually use Einsteins's field equations to pinpoint your location using GPS?
Gravitational time dilation is a phenomenon in which time passes at different rates in different gravitational fields. This means that time moves slower in stronger gravitational fields, such as those near massive objects like planets or stars.
According to Einstein's theory of general relativity, the presence of mass causes a curvature in the fabric of space-time. This curvature affects the rate at which time passes, causing it to slow down in stronger gravitational fields.
A classic example of gravitational time dilation is the "twin paradox." In this thought experiment, one twin stays on Earth while the other travels into space and back at high speeds. The twin who traveled will have experienced less time due to the difference in gravitational fields.
Yes, gravitational time dilation is a crucial concept in modern technologies such as GPS. The clocks on GPS satellites are adjusted to account for the difference in time due to their orbits in Earth's gravitational field. Without this adjustment, GPS technology would not be accurate.
Yes, gravitational time dilation has been observed and confirmed through numerous experiments. One example is the Pound-Rebka-Snider experiment, in which scientists measured the difference in the rate of time between a clock at the top of a tower and one at the bottom.