Yes.
Edit: Groups of galaxies usually move apart from each other. On a smaller scale
than that there is no general movement apart. For example the galaxies in our
"Local Group" are not moving apart.
no, that is the opposite, molecules will move faster and farther apart when the state changes from liquid to gas
No it is not true the big bang theory state the universe will never end.The big bang theory currently has 4 proposals for the final end to the universe. Which theory is correct is unclear at this time.1) The Big CrunchIf there is sufficient mass in the universe and dark energy either weakens or is insufficient to over come the gravity the universe expansion will slow, stop then the universe will start to collapse. The universe will get more and more dense until it ends in a big singularity like the big bang but in reverse.2) The Static EndIf there is just enough mass (less than the big crunch) and dark energy weakens or is insufficient to overcome the gravity. The universe will eventually stop expanding but only when the galaxies are so far apart that the gravity will be unable to contract the universe. Eventually all the stars will burn out and no new stars will be made and the universe will eventually go dark. All that will remain is radiation left over from the big bang and dead stars.3) The Big Freeze.If the is not enough mass to stop the expansion or dark energy is sufficient to keep the universe expanding. Then the universe will keep expanding for ever. Eventually the stars will all go out and the radiation from the big bang will have to fill a greater and greater area and the universe will get colder and colder. Galaxies made up of stellar remnants will move further and further apart.4) The Big RipIf there is not enough mass to stop the expansion and a lot of dark energy. The universe will expand at a faster and faster rate. As it gets faster firstly galaxies will be ripped apart. Then the star remnants will be ripped apart, then the matter will be ripped apart and even eventually space time itself will rip.
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
If you can go all around the universe why bother just exploring one part of the universe when you can search the full thing of it. Find out different amazing things.
They go more slowly. That's because there is less gravity.
no, that is the opposite, molecules will move faster and farther apart when the state changes from liquid to gas
they are spread farther apart, causing the air to get thinner, making it harder to breathe. ;P
A spiral will go farther then wibley.
If time were to go on infinitely, the universe were to stop expanding, and the universe didn't collapse on itself or tear apart, (a lot of prerequisites, I know) then, theoretically, yes.
You don't go anywhere in particular. Anything that gets picked up by a tornado usually gets deposited somewhere later along its track. Lighter objects tend to travel farther.
The higher you go the lower the temperature gets resulting in particles in the air moving slower and spacing themselves apart farther.
It can be, when it modifies a noun (e.g. a farther distance) as the comparative of the adjective "far."It can also be an adverb (go farther) meaning "further."
it goes farther when hit by a metal bat
Farther for physical distance and further for a figurative distance... I am going farther than this, meaning for more miles yet I can not go any further than this, meaning I stop here, can not go on
As you go though the atmoshpere, the density of the air decreases. This means the gas molecules that make up the atmosphere are farther apart at high altitudes then they are at sea level. Noah Bazoo
Both because heavy cars go farther down a hill. The light car go farther on regular flat surface.
The aluminum bat would go farther than the wooden bat. It will go farther because the aluminum bat is much lighter than the wooden bat.