Yes and no. On earth, there are time zones based on where you are located on earth. There are no time zones in space.
It would take the same length of time to eat a cookie in space as it would on Earth.
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.
The same way you track time on earth and everywhere else, by counting periods in the radiation emitted due to hyperfine transitions in Caesium-133.
Bright Orange- just the same color that you can see from Earth. Hope I answered in time!
Because they were made the same time as the Earth from the same materials. And, since they have basically been frozen in time in outer space, they can tell us a lot about the composition of the Earth. The materials on Earth are constantly being recycled and nothing remains from the birth of the Earth, so that is why we look to outer space and the meteorites that fall to Earth to give us clues to its origin.
Actually three ways: on its axis, around the sun, and through space.
She came on a space ship the same time as clark did, but she was frozen inside the damm for 18 years.
it orbits an object in space.
The same as on Earth - Stars
The earth's mass has no effect on its orbit. An astronaut on a "space walk" hovering over the space shuttle's cargo bay is in the same earth-orbit as the shuttle itself is, although his mass is much less than the shuttle's mass. At the same time, the shuttle and the astronaut are both in the same solar orbit as the earth is, although each of them has quite a bit less mass than the earth has.
The space station is orbiting the earth. That means it is constantly falling, but falling AROUND the Earth. Satellites do the same thing.
Time in space, particularly in low Earth orbit, experiences a phenomenon known as time dilation due to the effects of gravity and velocity. This causes time to move slightly slower in space compared to on Earth. The difference is very small but becomes more pronounced as objects approach the speed of light.