The specialty wrench shown in the figure is designed for access to the hold-down bolt on certain automobile distributors. For the configuration shown, where the wrench lies in a vertical plane and a horizontal 120-N force F is applied at A perpendicular to the handle, calculate the moment Mo applied to the bolt at O. For what value of the distance d would the z-component of Mo be zero? Assume a = 65 mm, d = 105 mm, h=200 mm, 0 = 27° F Answers Mo-i d- i Ө d h --y it i mm j+i k) N-m
The specialty wrench shown in the figure is designed for access to the hold-down bolt on certain automobile distributors. For the configuration shown, where the wrench lies in a vertical plane and a horizontal 120-N force F is applied at A perpendicular to the handle, calculate the moment Mo applied to the bolt at O. For what value of the distance d would the z-component of Mo be zero? Assume a = 65 mm, d = 105 mm, h=200 mm, 0 = 27° F Answers Mo-i d- i Ө d h --y it i mm j+i k) N-m
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Transcribed Image Text:The specialty wrench shown in the figure is designed for access to the hold-down bolt on certain automobile distributors. For the
configuration shown, where the wrench lies in a vertical plane and a horizontal 120-N force F is applied at A perpendicular to the
handle, calculate the moment Mo applied to the bolt at O. For what value of the distance d would the z-component of Mo be zero?
Assume a = 65 mm, d = 105 mm, h = 200 mm, 0 = 27°.
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Answers
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