Yes, furthest the galaxy more it's speed of moving away from each other also universe is expanding continuously therefore space between galaxies is also expanding . Redshift is directly proportional to the distance b/w the galaxies therefore distant galaxies red-shifted at faster rate
The farther away another galaxy is from our solar system the less effect that the gravitational pull will have on that galaxy.Thus allowing the other galaxy to travel at a faster rate.
incorrect. The farther away from earth a galaxy is, the faster it is moving.
According to Hubble's Law, the farther away a galaxy is the, faster it is moving away
The farther away another galaxy is from our solar system the less effect that the gravitational pull will have on that galaxy.Thus allowing the other galaxy to travel at a faster rate.
-- Once you get past our "local group", every galaxy is moving away from us. -- The farther any galaxy is from us, the faster it's moving away from us.
The farther a galaxy, the faster it moves away from us.
He discovered that the farther away a galaxy was, the faster it was moving away from Earth.
The farther away the galaxy is from ours the faster it moves from our galaxy.
Receding from each other faster the farther away they are. He saw they were "red shifted" and the red shift was greater the farther away the galaxy was. This mean that the Universe is expanding.
The further a galaxy is away from us the faster it's moving away from us.
By the redshift of the galaxies. In general, the farther away a galaxy is from us, the faster it moves away from us.
It means that, the farther away a galaxy is from us, the faster it moves away from us.
Redshift measure the recession speed of stars and galaxies. These speeds are proportional to distance--the farther a star or galaxy is from a given location in space, the faster that entity is moving away from that location. This proportionality is given as Hubble's Law. In general, everything is moving away from everything else, and the furthe away, the faster the acceleration (local movements not included). Dick