Solution to problem 2.4.39 from the collection of Kepe O.E.

Let's solve the problem:

Given: rope tension force F = 50 kN, distance h = 0.5 m

Find: closing moment A cantilever beam in kN m

Answer:

The moment of force can be calculated using the formula:

M = Fh

Substituting known values, we get:

M = 50 kN × 0.5 m = 25 kN m

Answer: 25.0

This task is associated with determining the moment in the embedment of a cantilever beam in the presence of a tension force of the cable and the distance to the embedment. The solution is based on the formula for calculating the moment of force as the product of force and the distance to the axis of rotation. In this case, it is necessary to take into account the dimension of the response, which is expressed in kN m.

Solution to problem 2.4.39 from the collection of Kepe O..

This digital product is a solution to problem 2.4.39 from the collection of problems on physics by Kepe O.. in a convenient format for use on electronic devices.

The solution to this problem is associated with determining the moment in the embedding of the cantilever beam in the presence of the tension force of the cable and the distance to the embedding. The solution is based on the formula for calculating the moment of force as the product of force and the distance to the axis of rotation.

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Solution to problem 2.4.39 from the collection of Kepe O.?. consists in determining the embedding moment A of the cantilever beam in kN m. To do this, it is necessary to know the tension force of the cable F, which is equal to 50 kN, and the distance h between the point of suspension of the cable and the embedment A, which is equal to 0.5 m.

The moment of force relative to the embedding point A can be determined by the formula: M = F * h. Substituting the known values, we get: M = 50 kN * 0.5 m = 25 kN m.

Answer: 25.0 kN m.

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