The Sun and the Moon.
None of the planets influence the tides on Earth. Only the moon, which is not a planet, has a major impact on tides on Earth.
There are typically two high tides and two low tides each day due to the gravitational forces of the moon and the sun on Earth's oceans. However, in certain locations, such as some parts of the Gulf of Mexico, there may only be three tides due to specific geographical features or tidal patterns.
Technically, every other massive body in the universe causes tidal effects; as a practical matter, only very close or very massive objects have any real effect. So we see tidal effects on the Earth caused by the Moon, which is close, and to a lesser extent by the Sun - which is far more massive, but also much farther away. No other body is either close enough or massive enough to have any influence on the tides at all.
Full Moons and New Moons are "eclipse season", since eclipses happen only at those times. They are the times when the sun earth and moon are closest to being in a straight line. So the tidal effects of the moon and the sun are working together. The sun's tidal effects on the earth are not very strong compared to the moon's, but they do have the effect of adding to the lunar tides as these times.
It's kind of pointless to ask what would happen if something that literally cannot possibly happen happened.Tides are a result of gravity. Gravity isn't going away, therefore tides are not going away.Specifically, Earth's tides are primarily a result of the Moon's gravity and the Sun's gravity. Even supposing somehow that the Moon were to be destroyed, there would still be tides (about the size of neap tides) due to the Sun. If the Sun were to suddenly vanish as well, we'd have much bigger problems than worrying about tides.Comment: Tides are caused by differences in gravitational force at different points. So, gravity doesn't need to go away, but differential gravity does.Also, the ocean tides on Earth depend a lot on the effect of the Earth's rotation.So, it's possible they could go away. The Earth's rotation is slowing down, but only very slowly.If the Earth suddenly "magically" had no tides, one obvious effect would be on the creatures that live in and around coastal tidal waters.Ships and ports would be affected too.Also, electrical energy generation based on tidal changes would not work.
None of the planets influence the tides on Earth. Only the moon, which is not a planet, has a major impact on tides on Earth.
The moon controls the tides using gravity. So it only depends on how close the moon is the the earth. The luna cycle has no effect.
Yes, the distance of the Moon from Earth affects the strength of tidal forces experienced on Earth. When the Moon is closer, tidal forces are stronger, leading to higher high tides and lower low tides. This can also impact the Earth's axial tilt and rotation.
Tides are primarily caused by the gravitational pull of the moon and the sun on Earth's oceans. The moon's gravitational force is stronger because it is closer to Earth, causing higher tides on the side of Earth facing the moon and on the opposite side.
The moon has just enough gravity to pull water to the sand of the beach. The moon has very little gravitational pull so it does not influence anything else on Earth. The tides are the only gravitational pull effect from the moon.
The Moon does have gravity, but its gravitational force is only about 1/6th that of Earth's. This is because the Moon is much smaller and less massive than Earth. The effect of gravity on the Moon is still strong enough to affect objects, including causing tides on Earth.
Only spring and neap tides. The normal day to day tides are brought about by the position of the moon in relation to the earth as the earth rotates 'beneath' it
The gravitational pull of the earth is stronger than the gravitational pull of the moon. This doesn't mean that the gravitational pull of the moon has no effect, it's just that the effect is very hard to notice, except on something like tides, because they involve literally all of the earth's oceans. The moon's gravity is affecting you and everything on earth right now; but the effects are so tiny they can't be noticed. It's only when you combine all of the moon's entire gravitational energy over the entire earth that you can notice its effect - with tides.
Yes. The earth's tides vary slightly with the seasons. The earth is at a greater distance from the sun in the summer than in the winter. The sun's gravity provides one cause of the earth's tides. The closer the earth is to the sun, the higher the tides will be. However, the variations in the moon's orbit can also have quite an effect so the correlation is not perfect. Only occasionally are the sun and moon both closest at the same time. When that happens, a spring tide results. If you live right next the water and one is predicted, perhaps you should consider going to a motel.
The gravitational force exerted on the Earth by the Sun is on average 179 times stronger than that exerted on the Earth by the Moon. However, the Sun is on average 389 times farther from the Earth than the Moon and therefore the gradient of its gravitational field is weaker. This results in the tidal force produced by the Sun being only 46% of that produced by the Moon. Thus the tidal force of the Moon is 2.21 times larger than that of the Sun.
No. Tides on Earth are caused mainly by the Moon, and by the Sun. If the Moon and the Sun are aligned - on the same side, or on opposite sides of the Earth - tides are stronger than when they are at a right angle. There are also tides on other planets, caused by their corresponding moons.
The tides of the earth's oceans are caused by the attraction of our moon on the planet, the attraction of the earth's water towards the moon (on the near side), the inverse-square law of distance vs. acceleration, and the earth's rotation.Because of the inverse-square effect of gravitational attraction, the moon has more attractive force on the overall earth than it has on the water on the far side of the planet. The net effect is to repel the water on the far side of the planet.>> The lower tides occur opposite the moon because the forces are lower.