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This is because the Pole Star (i.e. Polaris, in the Northern hemisphere) is within a degree of the Earth's centre of rotation. That is, the north pole is in line with this particular star. Thus, as the Earth rotates, Polaris does not appear to move in the sky, and the rest of the stars appear to revolve around it.
the degree of polaris on the horizon is your latitude. Shows the curvature of the earth. When the degree of polaris is 1 degree greater, you move the some distance if you move another degree. Shows how everything is equally distant from the center.
the stars don't move the earth rotates and that's why we think we see the stars move
The sun rotates because it goes around the earth.
no to the right
it does move
true
Yes, Polaris always seems to "hover" over the North Pole.
It does but only a little. It is almost directly above the Earth's North Pole so that the axis of rotation points towards Polaris.
It appears to remain stationary above the North Pole and that is why it is important.
Yes ! The Polaris Moves Comparatively To Earth !The Position Of The Polaris Is Not Constant .
The apparent daily movement of the stars in the sky is a reflection of Earth's rotation. Earth rotates around its axis; as a reflection of this, the entire sky rotates around an "axis", which is simply the extension of Earth's axis. By chance, the star Polaris is almost exactly on the line of the Earth's axis, extended into space. So, as the Earth rotates the stars appear to rotate around Polaris. Circumpolar stars never go below the observer's horizon, so they just seem to go in circles around Polaris.
Earth rotates at roughly 1,000 miles per hour. Earth's plates move at the astonishing speed of fingernail growth.
If by "seem to move" you are referring to perspective then it is true, since the Earth rotates on an axis and revolves around the sun, if we do not know that it is the Earth that is moving, it would seem that stars move across the sky, except for the pole star Polaris, which is aligned with the north axis and remains "fixed" in its place.
That is because Polaris is vertically above the North Pole, so it's in line with the Earth's axis and it always stays in the same place in the sky as seen from any given place. As the Earth rotates everything else appears to move round it.
This is because the Pole Star (i.e. Polaris, in the Northern hemisphere) is within a degree of the Earth's centre of rotation. That is, the north pole is in line with this particular star. Thus, as the Earth rotates, Polaris does not appear to move in the sky, and the rest of the stars appear to revolve around it.
That is because Polaris is vertically above the North Pole, so it's in line with the Earth's axis and it always stays in the same place in the sky as seen from any given place. As the Earth rotates everything else appears to move round it.