No. Earth orbits the sun, not the other way around. Earth's orbit depends on the mass of the sun, not Earth's rotation. Earth's rotation does, however, give the appearance that celestial objects revolve around it.
seasonsRotation around the sun gives the seasons because the earth is tilted. Rotation about earth's axis give day and night.
Winds are deflected to the right in the northern hemisphere because of the earths rotation.
No, Earth's rotation on its axis does not cause eclipses. Solar eclipses occur when the Moon passes between the Earth and the Sun, blocking out the Sun's light. Lunar eclipses happen when the Earth passes between the Sun and the Moon, causing the Earth's shadow to fall on the Moon.
If it is applied equally to all points, then the effect is to accelerate the body according to F = M * a. If it's not homogenous, then it may also cause a rotation.
the earths rotation
No. Earth orbits the sun, not the other way around. Earth's orbit depends on the mass of the sun, not Earth's rotation. Earth's rotation does, however, give the appearance that celestial objects revolve around it.
Earths rapid rotation and gravity interact to cause wind.
No, gravity doesn't cause the Earth's rotation.
The repeating phenomena referred to as "day" and "night".
A primary cause for surface winds on the earth is the Earths Rotation.
The longest season on the northern hemisphere is summer.
seasonsRotation around the sun gives the seasons because the earth is tilted. Rotation about earth's axis give day and night.
The Earth's rotation greatly enhances the even distribution of heat from insolation, and is the cause of the 24-hour night and day cycle of illumination over most of the Earth.
Not only the earth's rotation , the lunar phases change cyclically as the Moon orbits the Earth, according to the changing positions of the Moon and Sun relative to the Earth.
Winds are deflected to the right in the northern hemisphere because of the earths rotation.
day and night