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    Part A

    A person pushes a box of mass 15 kg along a floor by applying a force F at an angle of 30° below the horizontal. There is friction between the box and the floor characterized by a coefficient of kinetic friction of 0.45. The box accelerates horizontally at a rate of 2.0 m/s2. What is the magnitude of F?

    Solution

    System:

    Box as point particle.

    Interactions: External influences from the person (applied force) the earth (gravity) and the floor (normal force and friction).

    Model: Point Particle Dynamics.

    Approach:

    Diagrammatic Representation

    We begin with a free body diagram:

    Mathematical Representation

    With the free body diagram as a guide, we write the equations of Newton's 2nd Law:

    We can now use the fact that the box is sliding over level ground to tell us that ay = 0 (the box is not moving at all in the y-direction). Thus:

    Now, we can write the friction force in terms of F and known quantities:

    Substituting into the x-component equation yields:

    which is solved to obtain:

    Part B

    A person pulls a box of mass 15 kg along a floor by applying a force F at an angle of 30° above the horizontal. There is friction between the box and the floor characterized by a coefficient of kinetic friction of 0.45. The box accelerates horizontally at a rate of 2.0 m/s2. What is the magnitude of F?

    Solution

    System: Box as point particle.

    Interactions: External influences from the person (applied force) the earth (gravity) and the floor (normal force and friction).

    Model: Point Particle Dynamics.

    Approach:

    Diagrammatic Representation

    We again begin with a free body diagram:

    Mathematical Representation

    The diagrammatic representation suggests the form of Newton's 2nd Law:

    Again using the fact that ay is zero if the box is moving along the level floor gives us:

    so

    which is substituted into the x-component equation and solved to give:

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