Static Friction on an Inclined Plane: Force = mgsin30

StephenDoty · Feb 18, 2008

A block of mass m is at rest on an inclined plane that makes an angle of 30º with the
horizontal, as shown in the figure. Which of the following statements about the force of
static friction is true?
A) fs > mg D)fs = mg sin 30º
B) fs > mg cos 30º E) None of these statements is true.
C) fs = mg cos 30º

because the only two forces acting on the block is fs and weight, F=0 since at rest, thus 0=fs - mgsin30 so
fs= mgsin30

So the answer is D right??

Doc Al · Feb 18, 2008

Yes. Very good.

Moetasim · Feb 25, 2008

Yes, the correct answer is D) fs = mg sin 30º. This equation represents the relationship between the force of static friction (fs) and the weight of the block (mg) on an inclined plane at an angle of 30º. This is because the force of static friction is equal and opposite to the component of the weight of the block that is parallel to the inclined plane, which is represented by mgsin30º.

Static Friction on an Inclined Plane: Force = mgsin30

1. What is static friction?

2. How is static friction calculated on an inclined plane?

3. Why is the angle of incline important in calculating static friction?

4. How does the mass of the object affect static friction on an inclined plane?

5. Can the force of static friction on an inclined plane ever be greater than the force of gravity?

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