Explanation Given: The diameter of the solid ball ( D ) is 20 mm . The density of the solid ball ( ρ b ) is 3.00 Mg/m 3 . The density of liquid ( ρ L ) is 2.30 Mg/m 3 . The kinematic viscosity of liquid ( ν ) is 0.052 m 2 /s . Calculation: Consider the Reynolds number is less than 1 for the solid ball. Write the expression for the drag acting on the solid ball. F D = 3 π ρ L ν U D (I) Here, drag acting on the solid ball is F D and velocity of the solid ball is U , Write the expression for the volume of the ball. V = 4 3 π ( D 2 ) 3 = π 6 D 3 (II) Here, volume of the ball is V . Write the expression for the weight of the ball. W = m g = ρ b V g (III) Here, weight of the ball is W , mass of the ball is m , density of the ball is ρ b , and acceleration due to gravity is g . Substitute Equation (II) in Equation (III). W = ρ b ( π 6 D 3 ) g = π 6 ρ b g D 3 (IV) Write the expression for the buoyancy force on the ball ( F B ) . F B = ρ L V g (V) Substitute Equation (II) in the above Equation. F B = ρ L ( π 6 D 3 ) g = π 6 ρ L g D 3 Draw the free body diagram of the solid ball in Figure (1). Refer the figure (1), Apply the principle of the equilibrium along the y direction ( ∑ F y ) . ∑ F y = m a y F D + F B = W Substitute Equation (I), (IV), and (V) in the above Equation. 3 π ρ L ν U D + π 6 ρ L g D 3 = π 6 ρ b g D 3 3 π ρ L ν U D = π 6 ρ b g D 3 − π 6 ρ L g D 3 3 π ρ L ν U D = π 6 g D 3 ( ρ b − ρ L ) U = g D 2 ( ρ b − ρ L ) 18 ρ L ν U = ( 9

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ISBN: 9780134649290

Author: Russell C. Hibbeler

Publisher: PEARSON

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Properties of Fluids

The term fluid represents a type of substance that can easily change its shape under any external pressure/force and can flow. Fluids can acquire any shape in which it is stored and can resist normal stresses but cannot resist shear stress in rest condit…

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Chapter 11, Problem 71P

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The terminal velocity of the solid ball in oil.

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