The sun normally sets in the west, although technically it only sets due west at the spring and fall equinoxes. The direction of sunset pivots around this westerly point for the remainder of the year, shifting northerly in winter and southerly in summer. This is because the Earth is not aligned with the orbit of the Sun around the center of the Milky Way Galaxy; instead, it orbits along an axis that is tilted by about 23.5 degrees with respect to this central plane.
The setting sun is visible for a long time after darkness has fallen because it is still daytime at its location far away from the horizon. It can be up to half-lit up until midnight during the summer solstice or equinox, but only about 10 minutes past midnight during the winter solstice.
The sun will rise on the east side of the earth tomorrow morning. However, since the planet is rotating on its axis, this means that the sunrise will be seen as far south as South America while people in North America will see the sunset. Due to atmospheric conditions, what might be considered dawn in one part of the world could be mid-afternoon elsewhere. Also, keep in mind that when viewing the sky from the ground, north is toward the head and south is toward the feet; when standing up, north is behind you and south is ahead of you.
The sun "rises in the east and sets in the west," as most people are aware. At the summer solstice, the sun rises as far northeast as it ever does and sets as far northwest as it ever does. The sun rises a little more south every day after that. The sun rises straight east and sets due west during the autumn equinox. It then starts to go down northward until winter solstice when it sets completely north.
At the winter solstice, the sun never leaves the sky. It just gets lower and lower in the sky as days become longer and longer. At some points, you could actually see sunlight from Antarctica! The only time you cannot see the sun is during a total solar eclipse.
Even though the sun "sets west," that phrase means nothing in reality. When you say the sun sets west, you really mean that you see its last light on the horizon in the west. But that last bit of light could come from anywhere because there are no oceans or other large bodies of water in the way.
So yes, the sun really does set exactly west.
As evening approaches, the sun rises from the east and advances westward. Areas on the eastern side of the planet receive sunlight before locations on the western side, resulting in a time zone difference. The sun will always rise in the east and set in the west, regardless of whether you are in the northern or southern hemisphere. However, because we are in the Northern Hemisphere, we experience more hours of daylight in the summer than in the winter.
During the day, the sun travels across the sky at approximately 105 miles per second. So by the time it has traveled around the earth twice, it is already rising in the east again. At night, the earth is rotating around the sun so the part that was facing the sun during the day is now away from it. Thus, morning and afternoon occur when parts of the earth are in darkness and others are not. The part of the earth that is currently in darkness will eventually get light from another part of the sky. This is why sunrise and sunset do not necessarily occur at the same time everywhere on Earth - they depend on where you are located.
In addition to its daily movement across the sky, the sun is also known as a diurnal star because its location changes throughout the year. In the northern hemisphere, the sun is known as the spring equinox star and in the southern hemisphere it's called the autumn equinox star.
Because the earth spins towards the east, the sun, stars, and moon always rise in the east and set in the west. Noon comes when the sun is directly over a point on the equator - this is why there's no night in the middle of the day anywhere on Earth.
During a sunrise or sunset, if you look up into the sky you will see that all the clouds are running away from the center of the earth - this is because they are being pulled by the earth's gravity. So the sun causes the clouds to move away from him!
Some people may wonder, "Why don't all the clouds rush toward the sun?" This is because not all the cloud particles are small enough to be blown by the wind. Some of them are big enough to fall back down after rising up for a while. As well, not all the cloud particles are made of water either. Some of them are made of ice or dirt or some other substance. When light hits these particles, it can reflect back out into space or it can refract through the particle itself.
When sunlight strikes an atom of dust or vapor in the atmosphere, it can cause it to glow red, orange, or yellow. The color depends on the type of molecule inside the atom.
It has an impact on the direction of dawn and sunset. To locate directions by the sun, you must first grasp how the sun operates, including where it rises and sets and how it travels across the sky. Most people, I believe, believe that the sun rises in the east and sets in the west. And it does, for two days a year. The rest of the time, it's really up somewhere else or going somewhere else.
But here's the thing: The sun doesn't actually go anywhere. It's the earth that moves. Very slightly at first, but over time, this movement becomes noticeable to the naked eye. By measuring the angle formed by the horizon and the sun, you can figure out which way is north. This method isn't very accurate, but given enough time, it will get you close enough.
So if you want to know what direction it is today, check the sunrise and sunset today. If they're both north or south, that's the direction you need to go. If one is east and one is west, there's no need to worry about it. They'll catch up with each other eventually.
Here's another way to look at it: Imagine that someone is standing in front of you and will remain still while you make a mark on their body to show the direction that they are facing. Then watch as that person moves slowly away from you until they are gone.
East The sun "rises in the east and sets in the west," as most people are aware. Most individuals, however, are unaware that this is a generality. Actually, the sun only rises directly east and sets due west twice a year—-on the spring and autumn equinoxes! Otherwise, it passes over the equator from north to south every day of the year.
The reason that we only see part of the sun during its ascent and descent on either side of the earth is that it takes place within a band of longitude. This means that anywhere within that band it will appear to rise over the same point on the horizon and set over the same point on the horizon.
Since the path that the sun takes across the sky varies depending on where it is in relation to the earth, it follows that the sun's position with respect to the horizon changes throughout the day. At midday, when it is highest in the sky, it is also due east or west depending on which hemisphere you are in. But by the time it has set back toward the horizon, it has traveled westward across the sky in the evening and become west-southwest of south at sunset.
This phenomenon affects how we navigate at sea. A compass indicates which way is east or west depending on whether you are inside or outside the band of longitude in which the sun appears to stand still in the sky.