Explanation The figure below shows the free body diagram of the board. Figure-(1) Write the static equilibrium equation about point O. M B − F s d s − F p d p = 0 (I) Here, the bending moment is M B , the drag force on sign board is F s , the distance of drag force from the point O is d s , the drag force on pole is F p , the distance of drag force from the point O is d p . Write the expression for drag force on sign board. F s = C s ρ V 2 A s 2 (II) Here, the drag coefficient is C d density of air is ρ , velocity of air is V , the area of the sign board is A s . Write the expression for drag force on pole. F p = C p ρ V 2 A p 2 (III) Here, the drag coefficient is C p and the area of the sign board is A p . Write the expression for area of sign board. A s = l s × b s (IV) Here, the length of the sign board is l s and the breadth of the sign board is b s . Write the expression for area of pole. A p = l p × b p (V) Here, the length of the pole is l p and the breadth of the pole is b p . Conclusion: Substitute 34 in for l s and 22 in for b s in Equation (IV) A s = 34 in × 22 in = 34 in ( 1 ft 12 in ) × 22 in ( 1 ft 12 in ) = 5 .192 ft 2 Substitute 5 ft for l p and 3 in for b p in Equation (V). A p = 5 ft × 3 in = 5 ft × 3 in ( 1 ft 12 in ) = 1 .25 ft 2 Refer to Figure 9.28, Substitute 0

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Author: GERHART

Publisher: WILEY

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Combined Loading

Any functioning component, such as machine parts, structural members, pressure vessels, and so on, are all under the influence of more than one force. When anybody is under the influence of more than one force such as shear forces, bending moments, axial…

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Chapter 9.3, Problem 65P

To determine

The bending moment in the pole.

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Chapter 9.3, Problem 64P

Chapter 9.3, Problem 66P

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FUNDAMENTALS OF FLUID MECHANICS

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