@MrRiggyRiggs: This video shows a simulation spanning about 4 billion years. So one second equals about 10 million years. That means that one single video frame equals 400,000 years.
If I'm judging the speed of the animations correctly, one second seems to span about 10 million years, and the entire animation covers a 1.5 billion year period of time. I could be wrong; just my best guess.
the best part is... if you were in orbit around an extreme mass, time may seem to pass to you, as it does in this video... the only issue would be, staying in a stable orbit :) Gravitational time dilation FTW
Because the solar systems are SO small in relation to everything else that A) none will actually HIT each other and B) they are so small in relation to the galaxies that the gravitational tide changes are minescule, bordring on nonexistant.
As we can observe what happens during galaxy collisions we know that star collisions are extremely rare. There's so much space between the stars that collisions are almost impossible.
@DamienZshadow tbh, I don't know the exact value. The simple question is, what is the orbital velocity of stars around our galaxy, since knowing the speed lets you infer the mass of the "object" which the star is orbiting around. I hope this helps, since if you knew the orbit speed, you could use a formula to figure out the mass it orbits, and with mass you can figure out the time dilation amount.
@DamienZshadow Yeah :) And to travel forward in time... simply go into orbit around a black hole for a few days/weeks... since you'd experience a slower time passing, what seemed like days, would likely be closer to months :)
Hell, the interesting thing, is that if you could find a hyper-massive object, and go into close orbit around it, you could, due to time dilation, which would be caused by the travel speed, and the gravitational distortion...
@DamienZshadow Well... the effect is strong enough, that even at earth gravity scales we can measure the difference. Though my strong enough, I don't mean obvious to humans... but obvious to measurement.
@MrRiggyRiggs: This video shows a simulation spanning about 4 billion years. So one second equals about 10 million years. That means that one single video frame equals 400,000 years.
What is the name of this incredible, mind-blowing tune?
I will watch it with my own eyes.
me too! can't hardly wait!
If I'm judging the speed of the animations correctly, one second seems to span about 10 million years, and the entire animation covers a 1.5 billion year period of time. I could be wrong; just my best guess.
the best part is... if you were in orbit around an extreme mass, time may seem to pass to you, as it does in this video... the only issue would be, staying in a stable orbit :)
Gravitational time dilation FTW
What is the name of this piece of music by John Farah, and where can I get it?
Whoa. I've always wondered what this would look like from Earth, now I know! Thia is amazing, great job!
-Max
Because the solar systems are SO small in relation to everything else that A) none will actually HIT each other and B) they are so small in relation to the galaxies that the gravitational tide changes are minescule, bordring on nonexistant.
As we can observe what happens during galaxy collisions we know that star collisions are extremely rare. There's so much space between the stars that collisions are almost impossible.
@DamienZshadow tbh, I don't know the exact value.
The simple question is, what is the orbital velocity of stars around our galaxy, since knowing the speed lets you infer the mass of the "object" which the star is orbiting around. I hope this helps, since if you knew the orbit speed, you could use a formula to figure out the mass it orbits, and with mass you can figure out the time dilation amount.
Cant wait to be reborn
Excellent! I would like your permission to reproduce here on RUclips
If you by their DVD you also have the music.
It's about $19 or so.
@DamienZshadow Yeah :)
And to travel forward in time... simply go into orbit around a black hole for a few days/weeks... since you'd experience a slower time passing, what seemed like days, would likely be closer to months :)
Amazing sight I'd love to live through it. I wonder though, would our solar system maintain it's stability during the crash?
Hell, the interesting thing, is that if you could find a hyper-massive object, and go into close orbit around it, you could, due to time dilation, which would be caused by the travel speed, and the gravitational distortion...
@DamienZshadow Well... the effect is strong enough, that even at earth gravity scales we can measure the difference.
Though my strong enough, I don't mean obvious to humans... but obvious to measurement.
The distance between the stars is so big that it's extremely unlikely that a "nearby" star will throw the planets out of our solar system.
God this song is so distracting, that it messed me up while I was programming DX
luckily I save my project often :)
Trippy ...
Fair enough, but gravity is ripping the whole things apart, how do we know it won't disrupt our solar system?
How much time is passing between each frame?
why is the sun moving toward and away from the galaxy's center?
Because this : ruclips.net/video/kPOaPlXnnvg/видео.html
Twoja Stara
Twoja mama