Part B - Required strength of bearing pin Find the required strength Trall of the bearing pin given that the factor of safety is F. S. = 3. Express your answer in kilopascals to three significant figures. ▸ View Available Hint(s) VO AX 7Tall= Submit Submit 200 Part C- Required embedment length Find the required embedment length, L, given that the ultimate bonding stress between the wall and rod is 450 MPa and the factor of safety is F.S. = 3. Express your answer in meters to three significant figures. ▸ View Available Hint(s) [VÊ A£¢ ¤ rec Previous Answers t= * Incorrect; Try Again; 27 attempts remaining ? Foc ? Part D - Required bearing bracket thickness Find the required bearing bracket thickness, f, given that all 500 MPa and the factor of safety is F. S. = 3. Express the required bearing bracket thickness in meters to three significant figures. ▸ View Available Hint(s) | ΑΣΦ ? kPa m m

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Part B - Required strength of bearing pin Find the required strength all of the bearing pin given that the factor of safety is F. S. = 3. Express your answer in kilopascals to three significant figures. ▸ View Available Hint(s) 7Tall = Submit Part C - Required embedment length L= ΑΣΦ 41 Submit Find the required embedment length, L, given that the ultimate bonding stress between the wall and rod is 450 MPa and the factor of safety is F. S. = 3. Express your answer in meters to three significant figures. ▸ View Available Hint(s) WE ΑΣΦ 41 Previous Answers * Incorrect; Try Again; 27 attempts remaining Submit |VO|A£¢ # ? Previous Answere ? Part D - Required bearing bracket thickness Find the required bearing bracket thickness, f, given that all = 500 MPa and the factor of safety is F. S. = 3. Express the required bearing bracket thickness in meters to three significant figures. ▸ View Available Hint(s) ? m кра m

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Learning Goal: To determine design factors of a rigid structure based on normal stress, shear stress, bearing stress, and embediment length. As shown, a mass of weight Wis suspended from one end of the control arm ABC. Two brackets support the bearing pin at point B (.e., the pin is subjected to double shear). The connection at point C is rigid and only experiences a horizontal force component. Let a = 1.0 m, b=4.0 m, d₁ = 170 mm, d₂ = 110 mm. and W = 5.0 kN. Part A - Required strength of connecting rod o fall B 41 /BC L Find the required strength all of the connecting rod given that the factor of safety is F. S. = 3. Express your answer in kilopascals to three significant figures. ▸ View Available Hint(s) IL ΑΣΦ D "? kPa