Explanation Write the expression to calculate the pressure at point a . p a = p atm + ρ g ( h b + L ) Here, pressure at point a is p a the density of kerosene is ρ , atmospheric pressure is p atm , the height of the fluid above point b is h b and the height of the fluid above point b is ( h b + L ) . Write the expression to calculate the pressure at point b . p b = p atm + ρ g h b Here, the pressure at point b is p b . Write the expression to calculate the difference in pressure Δ p between point a and b . Δ p = p b − p a (I) Write the expression of specific volume υ to calculate the density of kerosene. υ = 1 ρ (II) Conclusion: Substitute p atm + ρ g ( h b + L ) for p a and p atm + ρ g h b for p b in Equation (I). Δ p = p atm + ρ g h b − [ p atm + ρ g ( h b + L ) ] = p atm + ρ g h b − p atm − ρ g h b − ρ g L = − ρ g L (III) Substitute 0.00122 m 3 / kg for υ in Equation (II)

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ISBN: 2818440116926

Author: MORAN

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Chapter 1.9, Problem 36P

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The difference in pressure between point a and b, also to describe whether the pressure increases or decrease as the kerosene flows from point a to b.

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Chapter 1.9, Problem 35P

Chapter 1.9, Problem 37P

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The difference in pressure between point a and b , also to describe whether the pressure increases or decrease as the kerosene flows from point a to b .

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The difference in pressure between point a and b, also to describe whether the pressure increases or decrease as the kerosene flows from point a to b.

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Chapter 1 Solutions