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h2. Part |
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A 10 kg box slides at a constant speed of 2 m/s along a smooth floor. What is the magnitude of the normal force exerted on the box by the floor?
System: Box as point particle subject to external influences from the earth (gravity) and the floor (normal force).
Model: Point Particle Dynamics.
Approach: We begin with a free body diagram for the box:
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!normalbox1.png|width=40%!
A 10 kg box slides at a constant speed of 2 m/s along a smooth floor. What is the magnitude of the normal force exerted on the box by the floor?
System: Box as [point particle] subject to external influences from the earth (gravity) and the floor (normal force).
Model: [Point Particle Dynamics].
Approach: We begin with a free body diagram for the box:
!normalfbd1.png!
From the free body diagram, we can write the equations of [Newton's 2nd Law|Newton's Second Law]. We ignore the x-direction, since there are no forces acting.
{latex}\begin{large}\[ \sum F_{y} = N - mg = ma_{y}\]\end{large}{latex}
Because the box is sliding over level ground, it is not moving at all in the _y_ direction. Thus, it certainly has no y-acceleration. Setting _a_~y~ = 0 in the above equation gives:
{latex}\begin{large}\[ N = mg = 98 N\]\end{large}{latex}
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