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Since the gravitational force is inversely proportional to the square of the distance between two objects, it is not as sensitive to distance as the tidal force.
It is not difficult to calculate that the gravitational pull of the Moon on the Earth is now only 1 179 of the gravitational pull of the Sun on the Earth. However, even the gravitational pull of the Sun cannot fundamentally change the direction of the Earth's axis of rotation.
In the solar system, the Sun has the greatest influence on the gravitational pull of the nine planets, including the Earth, but the rotation axis of these nine planets is still "independent". The most special thing is Uranus, which is literally lying on the plane of its orbit around the sun, like a spoiled and skinny child lying on the ground.
It is said that the average distance of Uranus from the Sun is 19 times the average distance of the Earth from the Sun, the influence of the Sun's gravity is much smaller, and the gravitational influence of Uranus's own moons on Uranus is only 1 20 of the influence of our moon on the Earth's gravity. However, Uranus's axis of rotation is tilted down, showing that gravity does not play a decisive role.
So it should be 6 times!
If I can help you, please give me a thank you.
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You can approximate it.
The gravitational acceleration on the Earth's surface is.
The gravitational acceleration on the surface of the Moon is.
The gravitational force is multiplied.
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Sextuple! It's in middle school physics textbooks!
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The mass of the Sun is 10.21 million times that of the Moon, and the distance between the Sun and the Earth is 510 times that of the Moon and the Earth.
According to this calculation, the gravitational pull of the Sun on the Earth is a multiple of the gravitational pull of the Moon on the Earth: (10210000 m 2) (510 510) (1 m 2 1) 400
The Sun's gravitational pull on the Earth is 400 times greater than the Moon's gravitational pull on the Earth.
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In terms of size, the Earth is about 49 times larger than the Moon. In terms of diameter, the Earth's Stove is about twice as large as the Moon. In terms of volume, the Earth is about 8 times larger than the Moon.
In terms of mass, the Earth is about 81 times larger than the Moon. The diameter of the Earth is 6,378 kilometers and that of the Moon is 1,738 kilometers.
Earth, the third planet in the solar system from the inside and outside, is also the terrestrial planet with the largest diameter, mass and density in the solar system, about 100 million kilometers from the sun.
The earth rotates from west to east, and at the same time revolves around the sun of the gods, which is now 100 million years old, and forms a celestial system with the moon - that is, the earth-moon system.
The radius of the Earth's equator is about 1,000 kilometers, the polar radius is about 1,000 kilometers, the average radius is about 6,371 kilometers, and the circumference of the equator is about 40,075 kilometers.
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The radius of the Moon is times the radius of the Earth and the mass is times that of the Earth.
Earth is the third planet to be from the Sun and the only known object that harbors and supports life. The Earth's surface is roughly a land mass of continents and islands. The remainder is covered by water, mostly oceans, bays, and other saltwater bodies, but also by lakes, rivers, and other freshwater, which together make up the hydrosphere.
Most of the Earth's polar regions are covered in ice. The Earth's outer layer is divided into several rigid tectonic plates that migrate to the surface over hundreds of thousands of years, while its interior remains active, with a solid iron core, a liquid outer core that generates the Earth's magnetic field, and a convective mantle that drives plate tectonics.
The Moon is a spherical body that revolves around the Earth, and the ridge is also the natural satellite of the Earth. In Chinese, it is commonly known as the moon or moon, and in ancient times, it was also called Taiyin, Xuantu, Chanjuan, and Yupan. The Moon is the fifth-largest moon in the solar system, with an average radius of about kilometers, which is equivalent to times the radius of the Earth; The mass is close to kilograms, which is twice that of the Earth.
The surface of the Moon is covered with craters formed by the impact of small celestial bodies. The average distance between the Moon and the Earth is about 10,000 kilometers, about 30 times the diameter of the Earth.
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The gravitational pull of the Moon is about one-sixth that of the Earth
The Moon, commonly known as the Moon, also known as Taiyin and Xuantu in ancient times, is the only natural satellite of the Earth and the fifth largest satellite in the solar system. With a quarter the diameter and eightieth the mass of the Earth, the Moon is the most massive moon relative to the planets it orbits and the second densest moon in the solar system, after Europa.
The surface of the moon is covered with craters formed by meteorite impacts. The Moon is now about 30 times the diameter of the Earth.
1.Definition and principle of gravitational force
Gravitational attraction is the force by which objects attract each other, and according to the law of gravitation, the gravitational force between two objects is directly proportional to their mass and inversely proportional to the square of the distance between them.
2.The mass and radius of the Moon
The mass of the Moon is about 1 81 of the mass of the Earth and its radius is about 1 4 of the radius of the Earth.
3.The relationship between gravity and mass
According to the law of gravitation, gravitational force is directly proportional to the mass of an object. The gravitational pull of the Moon is comparatively weaker due to its smaller mass.
4.Relationship between gravitational force and distance
The gravitational force is inversely proportional to the square of the distance between the objects. The distance between the Moon and the Earth is about 10,000 kilometers, and the gravitational pull of the Moon is relatively small relative to the distance from the Earth's surface.
5.The practical effects of the Moon's gravitational pull
Due to the relatively weak gravitational pull of the Moon, it has a relatively small impact on objects on Earth. However, the gravitational pull of the moon has an important effect on the tidal phenomena of the earth, causing the rise and fall of the oceans.
6.The practical effects of Earth's gravitational pull
The gravitational pull of the earth has an important effect on the objects on the earth. It keeps the object on the surface of the earth, affecting the weight and motion of the object. Earth's gravitational pull also affects the orbital movement of planets and moons.
7.Gravitational silver pie stool application
The understanding and application of gravity has a wide range of applications in science and engineering. It is used in astronomy to study the motion of planets and moons, and also in aerospace engineering to calculate orbits and flight paths.
The gravitational pull of the Moon is about one-sixth that of the Earth, which is due to the relatively small mass and distance of the Moon. Although the gravitational pull of the Moon is relatively weak, it has an important impact on tidal phenomena on Earth. The gravitational pull of the Earth has an important impact on objects on Earth and has a wide range of applications in science and engineering.
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The force of the Moon's gravitational force is about 1 6 of the Earth's gravitational force. Specifically, the surface gravitational acceleration of the Moon is about meters, while the surface gravitational acceleration of the Earth is about meters. Therefore, the gravitational pull of the Moon is about 1 6 of the gravitational pull of the Earth.
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The gravitational pull of the Moon is about 1 6 of the gravitational pull of the Earth. Although the mass phase of the Moon is smaller, the gravitational pull of the Moon is still considerable for objects on the surface due to its smaller size and closer proximity to the Earth. In contrast, the gravitational pull of the Earth is stronger because the Earth is more massive and has a greater ability to attract objects.
Gravity on the moon is weaker, which is one of the reasons why humans are able to jump higher and farther on the moon. Despite the weak gravitational pull of the Moon, it is still able to exert some traction on disturbed objects on the surface of the Moon. Hope, thank you.
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The gravitational pull of the Moon is 1 6 that of the Earth, which means that the flow resistance of the lunar volcanic lava is less than that of the Earth, and the lava travels more smoothly, and the smooth lava flow spreads easily, thus forming a huge basalt plain.
The gravitational pull exerted by the Moon on the Earth is one of the causes of tidal phenomena. The Earth and the Moon orbit each other, and the two celestial bodies rotate around a common center of gravity 1,600 kilometers below the surface. The Moon's orbit around the Earth is a synchronous orbit, and the so-called synchronous rotation is not strict.
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The mass of the moon is about 735 billion tons, which is one-eighty-one of the earth, and the larger the mass, the greater its gravitational pull, so the gravity on the surface of the moon is about one-sixth of the gravity of the earth, and the gravitational force of the earth is six times that of the moon.
Gravitational attraction refers to the tendency of objects with mass to accelerate closer to each other, which is due to the curvature of the object's own mass to space-time, rather than from the mutual pull between gravitational fields. Gravitational attraction is not the force we often understand, but is formed by the bending of space-time. It is mainly related to cosmic pressure, cosmic velocity, space dimension, magnetic field strength, and object structure.
The Moon, the Earth's only natural satellite, is the closest celestial body to us, with an average distance of about 384401 kilometers from the Earth. Its average diameter is about 3476 km, which is slightly larger than 1 4 of the Earth's diameter. The surface area of the Moon is 38 million kilometers, which is not as large as our area in Asia. >>>More
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Observe with a microscope of 600x or higher.
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The bending anchor is 90 degrees, the bending anchor to the column is, and the bending anchor to the beam is... How many times d is the bending section.
In short, the rotation (rotation and revolution) of the earth