Those that are already farthest from us do.
The farther they are from us, no matter in which direction, the faster they're receding from us.
The general tendency is that galaxies that are farther from us move away from us faster.
Those that are already farthest from us do.
The farther they are from us, no matter in which direction, the faster they're receding from us.
The general tendency is that galaxies that are farther from us move away from us faster.
they do move away from each other but it would never happen in awer life time
Basically, his discovery was that most galaxies move away from us; and that the galaxies that are farther away, also tend to move away faster.
Some nearby galaxies move towards us (blueshift), some move away from us (redshift). Galaxies that are farther away all move away from us (redshift); this means that the Universe is expanding.
That most galaxies move away from us; and that the general tendency is that galaxies that are farther away move away from us faster.
Galaxies generally move away from one another.
Away from us.
Most move away from us, and each other.
Most galaxies move away from us - the farther they are from us, the faster they move away from us. This means that the Universe is expanding.
Yes !
Away.
The general tendency is for galaxies to move away from each other, in other words, the Universe is expanding. Only in our "immediate neighborhood" will you also find some galaxies that move towards us.
The general tendency is for galaxies to move away from one another - the further apart they are, the faster they move away from one another. In other words, the Universe is expanding. Galaxies also have some "random" proper movement, which can be thought of as superimposed on this general expansion.