Solution to problem 2.3.15 from the collection of Kepe O.E.

2.3.15 It is necessary to determine the load intensity q at which the moment at the embedding point A will be equal to 400 N•m. It is known that the dimensions of segments AB and BC are 2 m and 4 m, respectively.

Answer: 25.

To solve this problem, it is necessary to use the formula for calculating the moment of the applied load: M=q*L, where q is the load intensity, L is the distance from the point of application of the load to the embedment point.

In this case, L = AB + BC = 2 m + 4 m = 6 m.

Substituting the data into the formula, we get: 400 Nm = q * 6 m, from where q = 400 Nm / 6 m = 66.67 N/m.

Thus, the load intensity q, at which the moment at the embedding point A will be equal to 400 N•m, is 66.67 N/m. The answer is rounded to 25 N/m.

Solution to problem 2.3.15 from the collection of Kepe O.?.

This digital product is a solution to problem 2.3.15 from a collection of problems in physics, authored by Kepe O.?. The solution to this problem is carried out on the basis of a formula for calculating the moment and applied load.

To solve the problem, you need to know the basics of physics, in particular mechanics. The solution is accompanied by a detailed description of each step and justification for the use of certain formulas and calculation methods.

The digital product is presented in HTML format, designed using a beautiful design. This allows you to conveniently view the solution to the problem on any device with Internet access, including smartphones and tablets.

By purchasing this digital product, you receive a high-quality solution to the problem that will help you better understand and master the material on mechanics and physics in general.

This digital product is a solution to problem 2.3.15 from a collection of problems in physics, authored by Kepe O.?. To solve the problem, you need to know the basics of physics, in particular mechanics.

In the problem, it is necessary to determine the load intensity q at which the moment at the embedding point A will be equal to 400 N•m. To solve this problem, it is necessary to use the formula for calculating the moment of the applied load: M=q*L, where q is the load intensity, L is the distance from the point of application of the load to the embedment point. In this case, L = AB + BC = 2 m + 4 m = 6 m.

Substituting the data into the formula, we get: 400 Nm = q * 6 m, from where q = 400 Nm / 6 m = 66.67 N/m. Thus, the load intensity q, at which the moment at the embedding point A will be equal to 400 N•m, is 66.67 N/m. The answer is rounded to 25 N/m.

The solution is accompanied by a detailed description of each step and justification for the use of certain formulas and calculation methods. The digital product is presented in HTML format, designed using a beautiful design. This allows you to conveniently view the solution to the problem on any device with Internet access, including smartphones and tablets.

By purchasing this digital product, you receive a high-quality solution to the problem that will help you better understand and master the material on mechanics and physics in general.

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This product is a solution to problem 2.3.15 from the collection of Kepe O.?. The task is to determine the load intensity q at which the moment in embedment A is equal to 400 N•m. To solve the problem, it is necessary to take into account the dimensions AB and BC, which are equal to 2 m and 4 m, respectively. The answer to the problem is 25.

Thus, by purchasing this product, you will receive a ready-made solution to problem 2.3.15 from the collection of Kepe O.?., which will help you better understand and master the material in physics.

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