Compute the maximum force P in Newtons that can be applied to the foot pedal. (Express your answer to one decimal place. Do not include the unit.)The 6-mm.- diameter pin at B is in single shear, and its working shear stress is 28 MPa. The cable attached at C has a diameter of 3 mm. and a working normal stress of 140 MPa.* 50 mm в с 10° -150 mm 50 mm
Compute the maximum force P in Newtons that can be applied to the foot pedal. (Express your answer to one decimal place. Do not include the unit.)The 6-mm.- diameter pin at B is in single shear, and its working shear stress is 28 MPa. The cable attached at C has a diameter of 3 mm. and a working normal stress of 140 MPa.* 50 mm в с 10° -150 mm 50 mm
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![Compute the maximum force P in Newtons that can be applied to the foot pedal.
(Express your answer to one decimal place. Do not include the unit.)The 6-mm.-
diameter pin at B is in single shear, and its working shear stress is 28 MPa. The
cable attached at C has a diameter of 3 mm. and a working normal stress of 140
MPа. *
50 mm
в с
10 T
150 mm
50 mm](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F307071c9-7530-476f-9506-ce06abc69267%2Ff164fc7e-3716-4724-a538-92c12c576282%2F4ay5oll_processed.png&w=3840&q=75)
Transcribed Image Text:Compute the maximum force P in Newtons that can be applied to the foot pedal.
(Express your answer to one decimal place. Do not include the unit.)The 6-mm.-
diameter pin at B is in single shear, and its working shear stress is 28 MPa. The
cable attached at C has a diameter of 3 mm. and a working normal stress of 140
MPа. *
50 mm
в с
10 T
150 mm
50 mm
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