It's interesting to note that this question was first posted here on June 23rd ...
two days after the longest day/earliest sunrise in the northern Hemisphere.
It'll be just as interesting to wait and see whether the questioner comes back on December 23rd,
and asks why the sun rises so < late > in Minnesota.
It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.
That completely depends on exactly where you're located on the earth, and it's different for every 30 miles or so. At the south pole, the sun doesn't rise at all on March 27th, and it won't rise again until late in September.
Because the orbit of the sun is some what curved and elliptical so it causes variation in timings of sunrise and sunset.
That description isn't true at all. In fact, it's just the opposite: Summer is the time of year when the sun rises earliest and sets latest, giving us the longest periods of daylight ... and heating.
it gets a lot warmer.. because you are closer to the sun (due to the earth's round shape)
i think so...
Most of us follow the clock and not when the sun rise and sets. So no.
Looking down on the solar system, the earth rotates on its axis counter clockwise, so the sun appears to rise in the east and set in the west.
Minnesota is a cold place (in the winters) it can get to about -25 to 25 degrees in the winter but in the summer it is a nice place to go 70 to 90 degrees great weather to be at one of are 10,000 lakes but be careful the sun in Minnesota last year I burnt my noses skin off from the sun so don't forget to wear sun screen or a winter coat.
The reason it is said that the sun appears to rise in the east and set in the west is that it doesn't actually rise or set. From our vantage point, it appears that the sun is moving across the sky when in reality, it is the rotation of our own planet that causes the transition from night to day and so on.
Because when the sun drops, it is not directly focused on that part of the Earth, and the sun is our source of heat as well. So when the sun is focused somewhere else, so is the heat along with it
It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.It is because the Earth is tilted. As it orbits the sun there is a time that Antarctica is tipped away from the sun completely, so even when the Earth rotates the sun does not rise at all. The reverse happens at the other stage, with Antarctica being tipped towards the sun completely.
The earth is spinning, so the sun appears to move across the sky, but it isn't moving at all. We are
That completely depends on exactly where you're located on the earth, and it's different for every 30 miles or so. At the south pole, the sun doesn't rise at all on March 27th, and it won't rise again until late in September.
mercury is hard to see from the earth because it is so close to the sun. it is best to view mercury either at sun rise or sun set.
Because the orbit of the sun is some what curved and elliptical so it causes variation in timings of sunrise and sunset.
the Aztecs sacrificed people to make the sun god happy so the sun would rise every day.