- The density of a fluid is given by the empirical equationp = 70.5 exp(8.27 x 107P)where p is density (Ib/ft') and Pis pressure (lb/in.?).(a) What are the units of 70.5 and 8.27 x 10-7?(b) Calculate the density in g/cm' for a pressure of 9.00 × 10° N/m².(c) Derive a formula for p(g/cm') as a function of P(N/m2). (See Example 2.6-1.) Check your resultusing the solution of part (b).

(a) The unit of the numerical terms given in the equation is to be mentioned. As the exponential…

Answered: - The density of a fluid is given by…

Introduction to Chemical Engineering Thermodynamics

8th Edition

ISBN:9781259696527

Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

Chapter1: Introduction

Section: Chapter Questions

Problem 1.1P

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The variation of a fluid pressure with height is described by: dp/dz = −ρg, where ρ is the specific density and g the local acceler- ation of gravity. For an ideal gas, ρ = Mp/RT , where M is the molar mass and R is the ideal gas constant. Modeling the atmosphere as an isothermal column of ideal gas at 5, estimate the ambient pressure in Den- ver, where z = 1 mile relative to the sea level. For air, −1 use M=29 gmol
العنوان > TIONTICWUTK A liquid with sp. gr. = 1.12 flows through a pipe with velocity 1 m/s. The diameter of the pipe is 4 in. Calculate: (i) The mass flowrate (kg/s), and (Ibm/min) (ii) The volumetric flowrate (m³/s), and (ft³/min) Ans.: (1) 9.08 Kg 1198.5 lb/min (it) 0.0081 m³/s. 17.15ft³/min Solve Ans: ۱/۱ で CIC
1% | TIONIC WORK العنوان ١٢:٣٦ A liquid with sp. gr. = 1.12 flows through a pipe with velocity 1 m/s. The diameter of the pipe is 4 in. Calculate: (i) The mass flowrate (kg/s), and (Ibm/min) (ii) The volumetric flowrate (m³/s), and (ft³/min) Ans.: (1) 9.08 Kg (ii) 0.0081 m³/s. 1198.5 lb/min 17.15ft/min Solve Ans TRONIC WOR A liquid with sp. gr. 1.12 flows through a pipe with velocity 1 m/s. The diameter of the pipe is 4 in. Calculate: (i) The mass flowrate (kg/s), and (lbm/min) (ii) The volumetric flowrate (m³/s). and (ft³/min) Kg Ans.: (1) 9.08 1198.5 lb/min S (i) 0.0081 m³/s. 17.15ft/min ۱/۱ A CIC

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