As seen in the figure, the block on an inclined plane is lifting from 0 0 with two degrees increment in each step. (8, 0, 0, = 2, 02 4, ..) Until which degree can we increase the angle without any slipping between the block and the inclined plane? For condition of F, > F, , the block continues to hang on the inclined plane. Otherwise, it starts to slip. F = W• sine(rad), Fy = W• cos®(rad) F. = F,• u, µ = 0.50, W = 100 N %3D

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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As seen in the figure, the block on an inclined plane is lifting from 0 0 with two degrees
increment in each step. (0, = 0, 0 =2, 02 = 4, ..) Until which degree can we increase
the angle without any slipping between the block and the inclined plane?
For condition of F > F, the block continues to hang on the inclined plane. Otherwise, it starts
to slip.
F, = W + sin8(rad),
Fy = W+ cosa(rad)
F = F, + u,
u = 0.50,
W = 100 N
Transcribed Image Text:As seen in the figure, the block on an inclined plane is lifting from 0 0 with two degrees increment in each step. (0, = 0, 0 =2, 02 = 4, ..) Until which degree can we increase the angle without any slipping between the block and the inclined plane? For condition of F > F, the block continues to hang on the inclined plane. Otherwise, it starts to slip. F, = W + sin8(rad), Fy = W+ cosa(rad) F = F, + u, u = 0.50, W = 100 N
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