A planet rotates on its axis, an imaginary line that runs from its North Pole to its South Pole. This rotation determines the length of a day on the planet.
The pole star, also known as Polaris, is located almost directly above the Earth's North Pole. Therefore, it indicates the direction towards the north.
The rotation of a planet occurs on an imaginary axis that extends from the planet's north pole to its south pole. This rotational motion on the axis causes the planet to spin, resulting in the cycle of day and night.
The imaginary line around which a planet spins is called its axis. It is an invisible line that runs from the planet's north pole to its south pole and determines the direction of rotation.
No planet is called the North Star. The North Star is actually Polaris, which is a star located close to the north celestial pole. It appears stationary in the night sky, and has been used for navigation by many civilizations throughout history.
North of course! There is no other way to travel.
It is when you have the pole north facing up and the pole south facing down they repel. When the pole north and south are facing up or down they attract.
No.It doesn't.
As long as you are not standing on either the North or South Poles, the east would be to your right.
Planet Earth
west
West
That would be Uranus, it is almost laying on its side, as it faces the Sun. Earth faces the sun standing almost straight up, with the north and south poles at the top and bottom. Uranus, however, has its south pole facing the Sun. Also, the planet rotates, or spins, from east to west which is the exact opposite of the way that Earth spins.
A North Seeking Pole (north pole) South Seeking Pole (south pole) if a magnet is suspended in mid air, it will always have it's north pole facing up they also have a magnetic field.
Uranus has a tilt of 98 degrees. This means that during part of its orbit, its south pole is tilted almost directly towards the Sun. At another part of its orbit, it is the north pole that is tilted almost directly towards the Sun.
over the North pole
On north pole.