No, because one part is at day-time, they cannot see any stars. If they could, they would see different stars, for they are on the opposite side of Earth.
Earth has seasons because its axis is tilted. Earth's axis is always pointed in the same direction, so different parts of Earth get the Sun's direct rays throughout the year.
...A map...
[[map .!]]
The earth is on a tilt so it can't hit the earth everywhere at the same time.
Time difference on Earth depends on which parts of the earth are facing the sun, the parts facing directly too the sun would be in mid day/12am and the opposite side of this would me at midnight/12pm and so on.
Because of the tilt
In that case, it would show the Sun the same face all the time. In parts of the Earth it would be day all the time, in other parts it would be night all the time.
No. Since the earth is constantly spinning, while at the same time, constantly orbiting the Sun, the side of the Earth facing away from the Sun, i.e. the night side, is constantly changing. As a result, stars and constellation do not appear in the same place every night.
No. Day and night is determined by what part of Earth is facing the sun. Half of the Earth faces toward the sun and half of earth faces away from the sun. As the Earth spins on it's axis, we get daylight in one side of the earth, and night time in the other side of the earth. It is never possible to have night time, or day time, on all the earth at the exact same time.
No. Day and night is determined by what part of Earth is facing the sun. Half of the Earth faces toward the sun and half of earth faces away from the sun. As the Earth spins on it's axis, we get daylight in one side of the earth, and night time in the other side of the earth. It is never possible to have night time, or day time, on all the earth at the exact same time.
No, North America had night and day at the same time, meanwhile, other parts of the world (such as Australia), have it reversed and have their seasons reversed too.
No. Stars move over time.
Yes, though not at the same time... and not at the same time of year.
There is no specific "opposite" to Earth. The Earth is a sphere: it has no front or back. In addition, the Earth is continually spinning. If you were to go outside at night and look at the stars over time, you will notice the stars are moving.
Hard Time on Planet Earth - 1989 Not in Our Stars 1-11 was released on: USA: 31 May 1989
The sidereal revolution time of the Moon is 27.32 days. This is the length of time it revolves relative to distant stars. Of more use, however, is the synodic period, which is 29.53 days, the average length of time it takes to repeat a phase. The reason for the difference between these two times is that the Moon is revolving around the Earth, at the same time the Earth is rotating about its axis, at the same time that the Earth is revolving around the Sun.
Stars are constantly moving, but their distance makes it unnoticeable for us. The reason we see different stars in different seasons is due to our position as we move around the sun each year. What that does mean is that at the same time each year, you will see the same stars in the same positions. During the night, as the Earth rotates, the stars seem to move across the sky. From night to night, because we orbit the sun, they appear to be in slightly different positions at the same time each night. Even then, you have to be looking carefully at the same time each night to notice. Because of that change, over the course of a few months they seem to have moved more considerably.