Solution to problem 2.3.17 from the collection of Kepe O.E.

2.3.17

Let us calculate the moment in embedment A, provided that the intensity of the distributed load qmax is 100 N/m, and the length of the beam AB is 3 m.

Answer: 300.

Solution to problem 2.3.17 from the collection of Kepe O..

This digital product is a solution to problem 2.3.17 from the collection of Kepe O.. on theoretical mechanics. The solution was made by a professional teacher with extensive experience in teaching and scientific work in the field of mechanics.

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This digital product is a ready-made solution to problem 2.3.17 from O. Kepe’s collection on theoretical mechanics. The solution was made by an experienced teacher with extensive experience in teaching and scientific work in the field of mechanics.

The solution to the problem includes a detailed calculation of the moment in embedment A for the given parameters: distributed load intensity qmax = 100 N/m and beam length AB equal to 3 m. The solution is presented in an easy-to-read format and is provided with detailed explanations and calculations.

This digital product can be useful for students and teachers studying theoretical mechanics and solving problems on this topic. By purchasing this product, you receive a ready-made solution to problem 2.3.17 from Kepe O.’s collection in a convenient and understandable format, which will allow you to significantly reduce the time you spend doing homework or preparing for an exam.

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Problem 2.3.17 from the collection of Kepe O.?. consists in determining the moment in the embedding A of beam AB. It is known that the intensity of the distributed load on the beam qmax is 100 N/m, and the length of the beam is 3 meters. It is required to find the value of the moment in seal A.

To solve this problem, you need to use the formula to find the moment of force relative to a point:

M = F * L

where M is the moment of force, F is force, L is the distance from the point to the direct action of the force.

In this case, the force F is equal to the intensity of the distributed load qmax, and the distance L is equal to half the length of the beam AB. Therefore, the formula for finding the moment of force in embedment A has the form:

M = qmax * L^2 / 2 = 100 * (3/2)^2 / 2 = 300 Nm.

Answer: 300 Nm.

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