Explanation Given information: The diameter of the horizontal pipe is 3 cm, the velocity at exit is 9 m / s , the length of the horizontal section is 5 m, and the length of the vertical section is 4 m . Write the expression for the cross sectional area of the pipe. A = π 4 d 2 ....... (I) Here, the cross sectional area is A and the diameter of the pipe is d . Write the expression for the mass flow rate. m ˙ = ρ A V ....... (II) Here, the mass flow rate is m ˙ the density of water is ρ and the velocity of flow is V . Write the expression for the force caused by the flow of water. F = m ˙ V ....... (III) Here, the force caused by the flow of water is F Write the expression for the bending moment acting on the base of the pipe on the wall. M = F × L N ....... (IV) Here the horizontal length of the pipe is L N . Calculation: Substitute 3 cm for d in Equation (I). A = π 4 ( 3 cm ) 2 = π 4 ( 3 cm ( 1 m 100 cm ) ) 2 = 7.068 × 10 − 4 m 2 Substitute 998 kg / m 3 for ρ 7.068 × 10 − 4 for A 1 and 6 m / s for V in Equation (II)

Fluid Mechanics: Fundamentals and Applications

4th Edition

ISBN: 9781259877827

Author: CENGEL

Publisher: MCG

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Chapter 6, Problem 110P

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Chapter 6, Problem 109P

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(30 pts) Problem 1 A thin uniform rod of mass m and length 2r rests in a smooth hemispherical bowl of radius r. A moment M mgr 4 is applied to the rod. Assume that the bowl is fixed and its rim is in the horizontal plane. HINT: It will help you to find the length l of that portion of the rod that remains outside the bowl. M 2r a) How many degrees of freedom does this system have? b) Write an equation for the virtual work in terms of the angle 0 and the motion of the center of mass (TF) c) Derive an equation for the variation in the position of the center of mass (i.e., Sŕƒ) a. HINT: Use the center of the bowl as the coordinate system origin for the problem. d) In the case of no applied moment (i.e., M 0), derive an equation that can be used to solve for the equilibrium angle of the rod. DO NOT solve the equation e) In the case of an applied moment (i.e., M = mgr = -) derive an equation that can be used to 4 solve for the equilibrium angle of the rod. DO NOT solve the equation. f) Can…

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Chapter 6 Solutions

Fluid Mechanics: Fundamentals and Applications

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The bending moment acting on the base of the pipe on the wall.

Solution Summary: The author explains the bending moment acting on the base of the pipe, the cross sectional area, and the mass flow rate.

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