Question 7: Find the maximum force F making angle 3 with the normal of the inclined plane to keep the block of mass m on the inclined plane of inclination angle 0 at rest as shown in Figure 3. The coefficient of static friction force between the block and the inclined plane is µ. The inclined plane does not move. m Figure 3

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sin θ-μcos β
O mg
sin B + µ cos 0
sin 3 + µ cos ß
mg
sin 0 – µ cos 0
sin 0 – µ cos 0
mg
sin B + µ cos 3
sin 0 + µ cos 3
O mg
sin 3 – µ cos 0
|
sin 0 + µ cos 0
mg
sin 3 – µ cos B
Transcribed Image Text:Select one: sin θ-μcos β O mg sin B + µ cos 0 sin 3 + µ cos ß mg sin 0 – µ cos 0 sin 0 – µ cos 0 mg sin B + µ cos 3 sin 0 + µ cos 3 O mg sin 3 – µ cos 0 | sin 0 + µ cos 0 mg sin 3 – µ cos B
Question 7: Find the maximum force F making angle B with the normal of the
inclined plane to keep the block of mass m on the inclined plane of inclination
angle 0 at rest as shown in Figure 3. The coefficient of static friction force
between the block and the inclined plane is µ. The inclined plane does not
move.
m
Figure 3
Transcribed Image Text:Question 7: Find the maximum force F making angle B with the normal of the inclined plane to keep the block of mass m on the inclined plane of inclination angle 0 at rest as shown in Figure 3. The coefficient of static friction force between the block and the inclined plane is µ. The inclined plane does not move. m Figure 3
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