Solution to problem 2.6.13 from the collection of Kepe O.E.

2.6.13 Let’s take a homogeneous roller of radius R = 0.4 m and apply a couple of forces to it with a moment M = 210 N m. We need to determine the maximum weight of the roller so that it can move up the inclined plane. The rolling friction coefficient between the roller and the plane is ? = 0.006 m. The answer to this problem is 601.

Solution to problem 2.6.13 from the collection of Kepe O.?.

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Solving the problem includes a step-by-step description of the solution method, intermediate calculations and the final answer. The problem was solved taking into account all the conditions described in the task.

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This product is a solution to problem 2.6.13 from the collection of Kepe O.?. in electronic format. The solution includes a detailed description of the solution method, intermediate calculations and the final answer. The problem was solved taking into account all the conditions described in the task.

To solve the problem, you need to find the greatest weight of the roller so that it can move up an inclined plane with given parameters: a homogeneous roller of radius R = 0.4 m and a pair of forces with a moment M = 210 N m, as well as the rolling friction coefficient between the roller and plane is equal to ? = 0.006 m.

By purchasing this digital product, you receive a high-quality solution to the problem that will allow you to quickly and easily understand the problem and get the correct answer. Beautiful html design will ensure comfortable reading and learning the solution to the problem on any device. This is an excellent choice for those who want to save their time and get a high-quality product.

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Solution to problem 2.6.13 from the collection of Kepe O.?. consists in determining the maximum weight of the roller at which it can roll up an inclined plane. The problem statement states that a pair of forces with a moment M = 210 Nm is applied to a homogeneous roller of radius R = 0.4 m. It is also known that the rolling friction coefficient is equal to? = 0.006 m.

To solve the problem it is necessary to use the laws of mechanics and equilibrium of bodies. The sum of the moments of forces acting on the roller must be equal to zero, since the roller is in a state of rest or uniform linear motion. Using the formula for the moment of force, you can express the weight of the roller in terms of other known quantities.

When the maximum roller weight reaches 601 N, the roller will be able to roll up an inclined plane at a given rolling friction coefficient. Answer to problem 2.6.13 from the collection of Kepe O.?. equals 601.

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