Whenever light travels into a medium with a different density, unless the direction of the light is exactly perpendicular to the boundary at which the density changes (like the surface of a bowl of water for example), the light will change direction. Such a change in the direction of light is called refraction. Due to the refraction of sunlight as it passes from space through Earth's atmosphere, someone standing at the north pole can see the sun from a few days before the March equinox until a few days after the September equinox. It's the same reason that every point along the equator gets 12.1 hours of daylight every day of the year instead of 12.0 hours.
In 2014, sunrise at the north pole is at 2:25 PM UTC on the 18th of March, and sunset is at 5:38 AM UTC on the 25th of September. From 2015 through 2020, sunrise and sunset times at the north pole are...
Since temperature, pressure and humidity all affect how much the light from the rising or setting sun will refract, the times listed above could be up to several minutes off depending on the weather.
Around September 23.
From above the North Pole, the Earth rotates anti-clockwise, or right to left.
Atmospheric effects may move the dates slightly either way, but the way this geometry nominally works, the sun is below the horizon and unseen from the north pole, from about September 21 until March 21.
You meet Club Penguin.
To see both the north celestial pole and the south celestial pole at the same time a person would need to standing at the equator. The atmospheric haze may interfere near the horizon may obstruct the view.
It depends on where are you standing, over the North pole, or over (or should I say under) the South pole. If you are at the north pole, the Earth appears to spin counter clockwise and at the south pole, clockwise. If you view the Earth from space, with the north pole up and the south pole down, it will spin moving left to right at the equator.
First, you would see two different hemispheres of stars from these opposite ends of the Earth.. Second, at the South Pole, given privileges, you could use astronomy tools installed by the United States at the Amundsen-Scott South Pole scientific research station. At the North Pole, you'd be standing on sea ice using whatever telescopic tools you brought with you.
Imagine you are at the center of the earth, the south pole beneath your feet and the north pole above your head.You see that north pole and south pole are in opposite direction hence the angle (or angular distance) is 180°now think about the equator. from your point of view at the center of the earth it is exactly in the horizontal direction, since north pole is vertically above ,the angular distance will be 90° (it will be the same for the south pole)
All the planets orbit counterclockwise around the Sun.
Higher latitudes (points closer to the North Pole) get a better view of the "Northern Lights." The farther north your location, the more clearly they can be seen - from the lower 48 US states, the observations are fairly rare, while in Alaska they are excellent and numerous.
I am a little confused. But if you meant why would you die..... Exposure ( to the elements, such as the weather) is the obvious answer. If you had the proper equipment it is survivable.
The planets orbit the sun in an anti-clockwise fashion if we were to view the solar system from over the north pole of the sun.