Explanation Assume that the thrust developed ( T ) depends on the rotational speed, ω , the diameter D , the fluid density ρ , and the speed of the propeller relative to the fluid is V . T = f ( ρ , V , ω , D ) (I) Write the dimension for thrust developed. T = M L T − 2 Write the expression for the rotational speed. ω = T − 1 Write the expression for the density ρ = M L − 3 Write the expression for the relative velocity. V = L T − 1 Write the expression for the diameter. D = L Write the expression to calculate the number of pi terms. n = k − r (II) Here, the number of variables is k and the number of fundamental dimension is r . Conclusion: Substitute 5 for k , 3 for r in Equation (II). n = 5 − 3 = 2 Thus, two pi terms are required for this problem. Write the expression for the first Π term. Π 1 = T ρ a ω b D c (III) Write the expression for the second Π term. Π 2 = V ρ a ω b D c (IV) Substitute M 0 L 0 T 0 for Π 1 , M L T − 2 for T , M L − 3 for ρ , T − 1 for ω and L for D in Equation (III) [ M 0 L 0 T 0 ] = [ M L T − 2 ] [ M L − 3 ] a [ T − 1 ] b [ L ] c = [ M 1 + a L 1 − 3 a + c T − 2 − b ] Compare the coefficient of M . a + 1 = 0 a = − 1 Compare the coefficient of L

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Chapter 7.6, Problem 37P

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Chapter 7.6, Problem 36P

Chapter 7.7, Problem 38P

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A carbon steel ball with 27.00-mm diameter is pressed together with an aluminum ball with a 36.00-mm diameter by a force of 11.00 N. Determine the maximum shear stress and the depth at which it will occur for the aluminum ball. Assume the figure given below, which is based on a typical Poisson's ratio of 0.3, is applicable to estimate the depth at which the maximum shear stress occurs for these materials. 1.0 0.8 Ratio of stress to Pma 9 0.6 στ 24 0.4 Tmax 0.2 0 0.5a a 1.5a Z 2a 2.5a За Distance from contact surface The maximum shear stress is determined to be MPa. The depth in the aluminum ball at which the maximum shear stress will occur is determined to be [ mm.

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