Solution to problem 17.1.16 from the collection of Kepe O.E.

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According to data as of January 17, 2016, the Moon moves around the Earth at a distance of 384,400 km from its center at a speed of 163 m/s. The mass of the Moon is 7.35 1022 kg. If we assume that the Moon is a material point, then we can determine the force with which the Earth attracts it. This force is equal to 5.08 1018 N.

As can be seen from the text, the Moon moves in orbit around the Earth at a distance of 384,400 km from its center and has a mass of 7.35 1022 kg. If we consider the Moon to be a material point, then the force with which the Earth attracts it is 5.08 1018 N.

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Solution to problem 17.1.16 from the collection of Kepe O.?.

We present to your attention the digital product "Solution to problem 17.1.16 from the collection of Kepe O.?". This product contains a detailed solution to the problem from the collection, which will help you better understand the material and prepare for exams.

• Author: O.?. Kepe
• File format: PDF
• Russian language
• Number of pages: 2

In this solution you will find the exact answer to problem 17.1.16, which concerns the motion of the Moon around the Earth. The solution contains all the necessary calculations and formulas that will help you understand the material and master it more deeply.

Buy the digital product "Solution to problem 17.1.16 from the collection of Kepe O.?." and improve your knowledge in physics!

rub. 99

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Solution to problem 17.1.16 from the collection of Kepe O.?. is a detailed solution to a physical problem in which it is required to determine the force with which the Earth attracts the Moon, if we consider the Moon to be a material point. The problem contains the following data: The Moon moves in orbit around the Earth at a distance of 384,400 km from its center with a speed of 163 m/s, and its mass is 7.35 1022 kg.

The solution to the problem contains all the necessary calculations and formulas to obtain an accurate answer to the problem. The digital product features two PDF pages in Russian written by O.?. Kepe.

By purchasing this product, you will be able to better understand the material and prepare for exams. The price of the product is 99 rubles. By clicking on the purchase button, you can purchase this product and significantly improve your knowledge of physics.

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Solution to problem 17.1.16 from the collection of Kepe O.?. consists in determining the force with which the Earth attracts the Moon, provided that the Moon is considered as a material point.

It is known that the Moon moves in orbit around the Earth at a distance of 384,400 km from the center of the Earth with an orbital speed of 163 m/s. The mass of the Moon is 7.35 · 10^22 kg.

To solve the problem, it is necessary to use the law of universal gravitation, which states that the force of attraction between two material points is proportional to the product of their masses and inversely proportional to the square of the distance between them:

F = G * (m1 * m2) / r^2

where F is the force of attraction, G is the gravitational constant, m1 and m2 are the masses of material points, r is the distance between them.

In this problem, m1 corresponds to the mass of the Earth, and m2 to the mass of the Moon. The distance between them is equal to the sum of the radii of the Earth and the Moon, i.e. 384,400 km + 6,371 km = 390,771 km = 3.90771 * 10^8 m.

Substituting the known values ​​into the formula, we get:

F = 6,67 * 10^-11 * ((5,97 * 10^24) * (7,35 * 10^22)) / (3,90771 * 10^8)^2

F = 5.08 * 10^18 N

Thus, the force with which the Earth attracts the Moon is 5.08 * 10^18 N.

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