A vessel contains water. The conditions of the system are: • volume of the vessel: V = 0.10 m³ • presure of water: P = 200.00 kPa • mass of water: m = 5.00 kg • specific volume of the saturated water at the pressure: vf = 0.001061 m³/kg . • specific volume of the saturated vapor at the pressure: vg = 0.885780 m³/kg enthalpy of the saturated water at the pressure: hf = 504.71 kJ/kg enthalpy of the saturated water at the pressure: hg = 2706.30 kJ/k difference of enthalpy of the saturated vapor and saturated liquid at the pressure: hfg = 2201.60 kJ/kg Determine (6) the mass of the vapor, mg=_ kg .
A vessel contains water. The conditions of the system are: • volume of the vessel: V = 0.10 m³ • presure of water: P = 200.00 kPa • mass of water: m = 5.00 kg • specific volume of the saturated water at the pressure: vf = 0.001061 m³/kg . • specific volume of the saturated vapor at the pressure: vg = 0.885780 m³/kg enthalpy of the saturated water at the pressure: hf = 504.71 kJ/kg enthalpy of the saturated water at the pressure: hg = 2706.30 kJ/k difference of enthalpy of the saturated vapor and saturated liquid at the pressure: hfg = 2201.60 kJ/kg Determine (6) the mass of the vapor, mg=_ kg .
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A vessel contains water. The conditions of the system are:
- volume of the vessel: V = 0.10 m3
- presure of water: P = 200.00 kPa
- mass of water: m = 5.00 kg
- specific volume of the saturated water at the pressure: vf = 0.001061 m3/kg
- specific volume of the saturated vapor at the pressure: vg = 0.885780 m3/kg
- enthalpy of the saturated water at the pressure: hf = 504.71 kJ/kg
- enthalpy of the saturated water at the pressure: hg = 2706.30 kJ/k
- difference of enthalpy of the saturated vapor and saturated liquid at the pressure: hfg = 2201.60 kJ/kg
Determine (6) the mass of the vapor, mg=_____ kg
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