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Part A

Suppose a 10 kg cubic box is at rest on a horizontal surface. There is friction between the box and the surface characterized by a coefficient of static friction equal to 0.50. If one person pushes on the box with a force F1 of 25 N directed due north and a second person pushes on the box with a force F2 = 25 N directed due south, what is the magnitude and direction of the force of static friction acting on the box?

System: Box as point particle subject to external influences from the earth (gravity) the surface (normal force and friction) and the two people (applied forces).

Model: Point Particle Dynamics.

Approach: To determine the force of static friction, we first find the net force in the absence of friction. We first draw the situation. A top view (physical representation) and a side view (free body diagram) of the box ignoring any contribution from friction are shown here.

The net force parallel to the surface in the absence of friction is then:

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\begin

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[ \sum_{F \ne F_{f}} F_

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= 0 ]
[\sum_{F \ne F_{f}} F_

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= F_

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- F_

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= 0 ]\end

Thus, the net force along the surface is zero without the influence of static friction, and so the static friction force will also be 0.

Part B

Suppose a 10 kg cubic box is at rest on a horizontal surface. There is friction between the box and the surface characterized by a coefficient of static friction equal to 0.50. If one person pushes on the box with a force F1 of 25 N directed due north and a second person pushes on the box with a force F2 = 25 N directed due east, what is the magnitude and direction of the force of static friction acting on the box?

System: Box as point particle subject to external influences from the earth (gravity) the surface (normal force and friction) and the two people (applied forces).

Model: Point Particle Dynamics.

Approach: To determine the force of static friction, we first find the net force in the absence of friction. We first draw the situation. A top view (physical representation) and a side view (free body diagram) of the box ignoring any contribution from friction are shown here.

The net force parallel to the surface in the absence of friction is then:

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\begin

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[ \sum_{F \ne F_{f}} F_

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= F_

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= \mbox

Unknown macro: {25 N}

]
[\sum_{F \ne F_{f}} F_

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= F_

Unknown macro: {1}

= \mbox

]\end

In order to prevent the box from moving, then, static friction would have to satisfy:

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\begin

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[ F_

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= - \mbox

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- \mbox

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= \mbox

Unknown macro: {35.4 N at 45}

^

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\mbox

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.]\end

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