To determine The terminal velocity of the block Explanation Draw the free body diagram of the block as shown in figure (1). Here, weight of the block is W , velocity of the block is V , shear stress is τ , area of contact is A . Write the expression for the weight. W = m g (I) Here, mass of the block is m and acceleration due to gravity is g . Write the expression for the shearing stress. τ = μ ( V b ) (II) Here, dynamic viscosity is μ , velcoity is V and distnace between the two object is b . Apply the principle of equilibrium of rigid body along the x direction. ∑ F x = 0 W sin 20 ° − τ A = 0 (III) Substitute equation (II) in equation (III). W sin 20 ° − ( μ V b ) A = 0 V = W b A μ sin 20 ° (IV) Conclusion: Substitute 10 kg for m and 9.81 m/s 2 for g in equation (I). W = 10 kg × 9 .81 m/s 2 = 98.1 N Refer to Table 1.6, “Approximate Physical Properties of Some Common Liquids (SI Units)”, At temperature of 15.6 ° C , The Dynamic viscosity of the SAE 30 ( μ ) oil is 0

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Chapter 1.6, Problem 80P

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The terminal velocity of the block

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Chapter 1.6, Problem 79P

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EBK MUNSON, YOUNG AND OKIISHI'S FUNDAME

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