Explanation Given information: Data from prob.P5.48 Specific gravity of steel ( S G ) = 7.86 Density of steel, ρ = 7800 k g m 3 Diameter of sphere D = 2.5 c m = 0.025 m Density and viscosity of glycerine at ρ g l y c e r i n = 1260 k g m 3 μ = 1.49 k g m − s For terminal velocity net weight is equal to the drag force. Form above information we will find drag force and then we can find the ordinate value ρ F μ 2 of fig. 5.11 . Due to this ordinate value we will Re d and with the help of this we will estimate the value of terminal velocity U . Calculation: We know that net weight W = ( ρ s t e e l − ρ g l y c e r i n ) g π 6 D

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The branch of science that deals with objects which are either in motion or stationary are studied under the branch of classical mechanics. Fluid mechanics is a subcategory of classical mechanics that deals with the behavior of fluids at rest (fluid stat…

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Chapter 5, Problem 5.86P

To determine

Terminal fall velocity U.

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Chapter 5, Problem 5.85P

Chapter 5, Problem 5.87P

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Which of the following sequences converge and which diverge? 1) a₁ = 2+(0.1)" 1-2n 2) a = 1+2n 1/n 3 16) a = n In n 17) an = n 1/n 1-5n4 3) an = n² +8n³ 18) an = √4" n n² -2n+1 n! 20) a = 4) an = 106 5) n-1 a₁ =1+(-1)" n+1 a-(+) (1-4) 6) = 7) a = 2n (-1)"+1 2n-1 21) an = n -A" 1/(Inn) 3n+1 22) a = 3n-1 1/n x" 23) a = , x>0 2n+1 3" x 6" 24) a = 2™" xn! 2n 8) a = n+1 πT 1 9) a„ = sin +- 2 n sin n 10) an = n 25) a = tanh(n) 26) a = 2n-1 27) a = tan(n) 1 -sin n n 11) a = 2" 28) an == " 1 + 2" In(n+1) 12) a = n (In n) 200 29) a = n 13) a = 8/n 14) a 1+ =(1+²)" 15) an 7 n = 10n 30) an-√√n²-n 1"1 31) adx nix

A steel alloy contains 95.7 wt% Fe, 4.0 wt% W, and 0.3 wt% C.

b. A horizontal cantilever of effective length 3a, carries two concentrated loads W at a distance a from the fixed end and W' at a distance a from the free end. Obtain a formula for the maximum deflection due to this loading using Mohr's method. If the cantilever is 250 mm by 150mm steel I beam, 3 m long having a second moment of area I as 8500 cm4, determine W and W'to give a maximum deflection of 6 mm when the maximum stress due to bending is 90 Mpa. Take Young's modulus of material E as 185 Gpa.

Chapter 5 Solutions

Fluid Mechanics, 8 Ed

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