Determine the required mass of block A so that block B will impend upward, assuming that a 375- Newton force acts perpendicular to block A. The weight of the block B is 475 N; the coefficient of friction between block A and the wall, as well as block B and the inclined floor is 0.33, whereas 0.26 for the fixed drum and rope. The floor is inclined at 42° with respect to the horizontal plane. Wb = 475 N 375 N 42° Answer should be in kg. Use gravitation acceleration = 9.81 m/s2 Sample answer format: 1234.5678
Determine the required mass of block A so that block B will impend upward, assuming that a 375- Newton force acts perpendicular to block A. The weight of the block B is 475 N; the coefficient of friction between block A and the wall, as well as block B and the inclined floor is 0.33, whereas 0.26 for the fixed drum and rope. The floor is inclined at 42° with respect to the horizontal plane. Wb = 475 N 375 N 42° Answer should be in kg. Use gravitation acceleration = 9.81 m/s2 Sample answer format: 1234.5678
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Transcribed Image Text:Determine the required mass of block A so that block B will impend upward, assuming that a 375-
Newton force acts perpendicular to block A. The weight of the block B is 475 N; the coefficient of friction
between block A and the wall, as well as block B and the inclined floor is 0.33, whereas 0.26 for the fixed
drum and rope. The floor is inclined at 42° with respect to the horizontal plane.
Wb = 475 N
375 N
42°
Answer should be in kg. Use gravitation acceleration = 9.81 m/s2
Sample answer format: 1234.5678
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