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There are no tides on the moon, since there is no water or liquid of any kind on its surface, to our knowledge.
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Why is a high tide on the side of the earth closest to the moon?
AP
When one side of the Earth is at high tide then the opposite side of the Earth is also at high tide.?
This phenomenon occurs due to the gravitational pull of the Moon on Earth. As the Moon orbits, its gravitational force creates a bulge of water on the side of the Earth facing it, resulting in high tide. Simultaneously, the centrifugal force caused by the Earth-Moon system's rotation creates another bulge on the opposite side, leading to a second high tide. Thus, both sides experience high tide simultaneously.
What is a moon tide?
On Earth, ocean tides are caused by the moon. This is because the moon is pulling on the surface of the Earth and the water in the ocean which is closer to the moon is pulled upward. This upward surge causes high tide while on the opposite side of the Earth (where the moon is furthest from the water) there is a low tide.
What happens on the side of earths opposite the moon?
it causes a high tide in the ocean
Why there is waves in see?
the gravitational force of the moon is pulling on all mass of the earth, so the water and cause the earth is orbitting it creates tide. high tide on the side closest to the moon. and low tide on the other side
Why does the tide come in out?
There is a high tide on the side of the Earth that is opposite to the Moon. This is because of the differences in the strength of the Moon's gravity felt at different places on Earth. The water on that far side is subject to a smaller gravitational pull than the center of the Earth and is so is "left behind", forming a tidal bulge. See the "related link" below.
Why is there always a high tide on the other side of the earth directly opposite the moon?
High tide occurs on the side of the Earth facing the moon due to the moon's gravitational pull, which causes water to bulge toward it. Simultaneously, there is also a high tide on the opposite side of the Earth because the Earth itself is being pulled slightly toward the moon, creating a centrifugal effect on the water. This results in two high tides occurring simultaneously: one facing the moon and one on the opposite side.
When one side of the Earth is at low tide then the opposite side of the Earth is at high tide.?
Yes, this is correct. Tides are primarily influenced by the gravitational forces of the moon and sun. When one side of the Earth is experiencing low tide due to the gravitational pull of the moon, the opposite side is experiencing high tide due to the gravitational forces creating a bulge of water.
What causes the Moon's high tides?
The Moon's high tides are caused by its gravitational pull on Earth's water. As the Moon orbits Earth, it creates a bulge in the water on the side facing the Moon, causing a high tide. There is also a second high tide on the opposite side of Earth due to the centrifugal force from Earth's rotation.
Where is the moon's pull strongest relating to tides?
The moon's pull is strongest on the side of Earth that is facing the moon, creating a high tide. At the same time, on the opposite side of Earth, there is another high tide due to the centrifugal force generated by Earth and moon's orbital motion.
Why is there a high tide on the side of the earth furthest from the sun?
It's obvious why there's a high tide on the side nearest the moon: the water is pulled by the moon's gravity. However, that pull is reduced the further you get from the moon, so on the far side, the water experiences a much reduced pull. That causes it to bulge outwards.
What evidence do you have that the moon pulls on the earth at all?
The changes in ocean tides are caused by the moon's gravitational pull on the earth. The moon actually pulls the earth away from the ocean, which cause low tide on the side of the planet where the moon is, and high tide on the opposite side.
