of data, >) The ideal gas equation of state, and C) The generalized compressibility chart. d) Compare the result in (b) to the result in (a) and determine the percentage error. e) Compare the result in (c) to the results in (a) and determine the percentage error. I

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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R-134a at 1.4 MPa has a specific volume of 0.02000 m³/kg. Determine the temperature of the R-134a based on:
(a) The tables of data,
(b) The ideal gas equation of state, and
(c) The generalized compressibility chart.
(d) Compare the result in (b) to the result in (a) and determine the percentage error.
(e) Compare the result in (c) to the results in (a) and determine the percentage error.
Transcribed Image Text:R-134a at 1.4 MPa has a specific volume of 0.02000 m³/kg. Determine the temperature of the R-134a based on: (a) The tables of data, (b) The ideal gas equation of state, and (c) The generalized compressibility chart. (d) Compare the result in (b) to the result in (a) and determine the percentage error. (e) Compare the result in (c) to the results in (a) and determine the percentage error.
Expert Solution
Step 1: Introduction

To determine the percentage error for the values collected from the tables of data, ideal gas equation of the state and generalised compressiblity chart, with given

pressure for R134a p equals 1.4 space M p a

specific volume, v equals 0.02000 space m cubed divided by k g        


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