Block A has a mass of mA = 60.0 kg and rests on a flat surface. (Figure 3) The coefficient of static friction between the block and the surface is \mu A 0.300. The coefficient of = static friction between the rope and the fixed peg B is 0.350. The width of the block is d = 0.220 m. Find the greatest mass, mC, that weight C can have such that block A does not move. Figure B 0.500 m 3 of 3 A 0.300 m 0.200 m 0.400 m-

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Block A has a mass of mA = 60.0 kg
and rests on a flat surface. (Figure 3)
The coefficient of static friction
between the block and the surface is
\mu A 0.300. The coefficient of
=
static friction between the rope and
the fixed peg B is 0.350. The width
of the block is d = 0.220 m. Find the
greatest mass, mC, that weight C can
have such that block A does not
move.
Figure
B
0.500 m
3 of 3
A
0.300 m
0.200 m
0.400 m-
Transcribed Image Text:Block A has a mass of mA = 60.0 kg and rests on a flat surface. (Figure 3) The coefficient of static friction between the block and the surface is \mu A 0.300. The coefficient of = static friction between the rope and the fixed peg B is 0.350. The width of the block is d = 0.220 m. Find the greatest mass, mC, that weight C can have such that block A does not move. Figure B 0.500 m 3 of 3 A 0.300 m 0.200 m 0.400 m-
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