Given hubble expansion and the accelerating expansion of the universe, what equation would be used to determine the maximum go-return distance (the maximum comoving distance from a point of origin an entity can go from their point of origin and still be able to return in a finite period of time) given an object's velocity as a fraction of the speed of light (and the time it would take to get to any given comoving distance at some fraction of c) what would that distance be for the speeds of 0.8c 0.9c & 0.95c? The accelerating expansion of the universe also implies that the overall density of matter in the universe will decrease over time. what equation tells you how dense the volume of our go-return bubble would at a given future time compared to present date?
Given hubble expansion and the accelerating expansion of the universe, what equation would be used to determine the maximum go-return distance (the maximum comoving distance from a point of origin an entity can go from their point of origin and still be able to return in a finite period of time) given an object's velocity as a fraction of the speed of light (and the time it would take to get to any given comoving distance at some fraction of c) what would that distance be for the speeds of 0.8c 0.9c & 0.95c? The accelerating expansion of the universe also implies that the overall density of matter in the universe will decrease over time. what equation tells you how dense the volume of our go-return bubble would at a given future time compared to present date?
Given hubble expansion and the accelerating expansion of the universe, what equation would be used to determine the maximum go-return distance (the maximum comoving distance from a point of origin an entity can go from their point of origin and still be able to return in a finite period of time) given an object's velocity as a fraction of the speed of light (and the time it would take to get to any given comoving distance at some fraction of c) what would that distance be for the speeds of 0.8c 0.9c & 0.95c? The accelerating expansion of the universe also implies that the overall density of matter in the universe will decrease over time. what equation tells you how dense the volume of our go-return bubble would at a given future time compared to present date?
Given hubble expansion and the accelerating expansion of the universe, what equation would be used to determine the maximum go-return distance (the maximum comoving distance from a point of origin an entity can go from their point of origin and still be able to return in a finite period of time) given an object's velocity as a fraction of the speed of light (and the time it would take to get to any given comoving distance at some fraction of c) what would that distance be for the speeds of 0.8c 0.9c & 0.95c?
The accelerating expansion of the universe also implies that the overall density of matter in the universe will decrease over time. what equation tells you how dense the volume of our go-return bubble would at a given future time compared to present date?
Definition Definition Rate at which light travels, measured in a vacuum. The speed of light is a universal physical constant used in many areas of physics, most commonly denoted by the letter c . The value of the speed of light c = 299,792,458 m/s, but for most of the calculations, the value of the speed of light is approximated as c = 3 x 10 8 m/s.
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