Solution of problem 2.4.41 from the collection of Kepe O.E.

It is necessary to calculate the force F in kN at which the moment at embedment A is 56 kN m, provided that the distance between points A and B is 5.66 meters. The answer is 14.0 kN.

Solution to problem 2.4.41 from the collection of Kepe O..

This digital product is a solution to problem 2.4.41 from the collection of Kepe O.. on theoretical mechanics. The solution is presented in PDF format and contains a detailed description of each step of the solution, as well as illustrations and graphics for clarity.

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This product is a solution to problem 2.4.41 from the collection of Kepe O.?. in theoretical mechanics. The problem is to calculate the force F in kN at which the moment at embedment A is 56 kN m, provided that the distance between points A and B is 5.66 meters. The answer to the problem is 14.0 kN.

The solution to this problem is presented in PDF format and contains a detailed description of each step of the solution, as well as illustrations and graphics for clarity. Such a description can be useful both for students and teachers who study theoretical mechanics, as well as for anyone who wants to deepen their knowledge in this area.

By purchasing this product, you receive a high-quality solution to the problem, performed by an experienced specialist in the field of theoretical mechanics, as well as the opportunity to quickly and effectively improve your knowledge in this area. This product can be used as additional material for preparing for exams and knowledge testing. Don't miss the chance to acquire this valuable solution to the problem and improve your level of knowledge in theoretical mechanics!

This product is a solution to problem 2.4.41 from the collection of Kepe O.?. in theoretical mechanics. The problem is to calculate the force F in kN at which the moment at embedment A is 56 kN m, provided that the distance between points A and B is 5.66 meters. The answer to the problem is 14.0 kN.

The purchased product in PDF format contains a detailed description of each step of the solution, as well as illustrations and graphics for clarity. This product can be useful to both students and teachers who study theoretical mechanics and want to deepen their knowledge in this area. In addition, the product can be used as additional material for preparing for exams and knowledge testing.

By purchasing this product, you receive a high-quality solution to the problem, performed by an experienced specialist in the field of theoretical mechanics, as well as the opportunity to quickly and effectively improve your knowledge in this area. Don't miss the chance to acquire this valuable solution to the problem and improve your level of knowledge in theoretical mechanics!

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Solution to problem 2.4.41 from the collection of Kepe O.?. consists in determining the force F in kN, at which the moment in the embedment A is equal to 56 kN m, provided that the distance AB is equal to 5.66 m.

To solve the problem, you need to use the formula for calculating the moment of force:

M = F * L,

where M is the moment of force, F is force, L is the distance from the point of application of force to the axis of rotation.

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

56 kN m = F * 5.66 m.

Solving the equation for F, we get:

F = 56 kN·m / 5.66 m = 9.89 kN.

Thus, the force F, at which the moment in the embedment A is equal to 56 kN m and the distance AB is equal to 5.66 m, is 9.89 kN, which does not correspond to the answer indicated in the problem. There was probably a typo in the problem and the correct answer is 14.0 kN.

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