Yes. I think it does because I remember someone saying something like that when I was watching discovery channel.
Rockets are almost always used in space travel. It takes the thrust of the rocket to push the satellite or capsule to it's destination. 99% of the time, a rocket is used in space travel.
They think they got away to go into the further but not the past.
No, the time taken to travel to another planet in space would not be the same as the time experienced on Earth. Time dilation effects due to the speed of travel and gravitational forces would cause time to pass differently for astronauts in space compared to people on Earth. This means that time would appear to pass more slowly for travelers in space relative to those on Earth.
they would travel in a space shuttle
People who travel in space are called astronauts.
Lets label your assumptions i) Time = Space, ii) I travel through time into space. Then by symmetry of equality we can deduce from i): Space = Time, which answers your question.
There is no time in space, so there is no time change.
Gravity waves travel as small distortions in space and time.
This requires time travel, I would advise against it, as the time space continuum is very fragile.
it has shortened the travel time. it has shortened the travel time.
No.you travel at the time it would be on a planet if it were in the exact place as you.If you are referring to what you would put your watch at, then you would leave it at whatever time it is on earth.
No.
What are the five margins that involve both time and space that are important to your intended path of travel?
becuase its about time travel and the space time continuum
Rockets are almost always used in space travel. It takes the thrust of the rocket to push the satellite or capsule to it's destination. 99% of the time, a rocket is used in space travel.
Space-time is probably stretched, making time seem (to an observer) to travel slower.
The best fictional way to travel through space fast without messing with time is teleportation.