Complete the property table for water below. Use only the Thermodynamic Property Table for Water referring to the Smith, Van Ness and Abbot Thermodynamics textbook. P [kPa] TrC) V [m³/kg] H[ KJ/kg] Phase Description 243 2330 600 Saturated vapor 125 0.7 Note that x refers to the "quality" or the mass fraction of the water in vapor phase. If the system is composed of pure liquid water, x = 0. If the system is composed of pure gaseous steam, x = 1. The volume of a liquid/vapor system can be determined using the following equation. V = V + x(Vg•Vi) V- volume of saturated liquid water Va- volume of saturated gaseous steam Similar calculation can be done for other properties such as internal energy, entropy, and enthalpy. H = HỊ + x(Hg-H) Under phase description, indicate whether the system is composed of saturated liquid, saturated vapor, superheated vapor, or liquid-vapor mixture. Also note that when pressure is given, it is more advisable to use the Superheated Steam Table than the Saturated Steam Table in getting the properties of water at saturation.

Elements Of Electromagnetics
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Complete the property table for water below. Use only the Thermodynamic Property Table
for Water referring to the Smith, Van Ness and Abbot Thermodynamics textbook.
P (kPa]
T(°C] V [m3/kg]
H[ KJ/kg]
Phase Description
243
2330
600
Saturated vapor
125
0.7
Note that x refers to the "quality" or the mass fraction of the water in vapor phase. If the
system is composed of pure liquid water, x = 0. If the system is composed of pure gaseous
steam, x = 1.
The volume of a liquid/vapor system can be determined using the following equation.
V = V + x(Vg-Vi)
V - volume of saturated liquid water
Vg - volume of saturated gaseous steam
Similar calculation can be done for other properties such as internal energy, entropy, and
enthalpy.
H = HỊ + x(Hg-H)
Under phase description, indicate whether the system is composed of saturated liquid,
saturated vapor, superheated vapor, or liquid-vapor mixture.
Also note that when pressure is given, it is more advisable to use the Superheated Steam
Table than the Saturated Steam Table in getting the properties of water at saturation.
Transcribed Image Text:Complete the property table for water below. Use only the Thermodynamic Property Table for Water referring to the Smith, Van Ness and Abbot Thermodynamics textbook. P (kPa] T(°C] V [m3/kg] H[ KJ/kg] Phase Description 243 2330 600 Saturated vapor 125 0.7 Note that x refers to the "quality" or the mass fraction of the water in vapor phase. If the system is composed of pure liquid water, x = 0. If the system is composed of pure gaseous steam, x = 1. The volume of a liquid/vapor system can be determined using the following equation. V = V + x(Vg-Vi) V - volume of saturated liquid water Vg - volume of saturated gaseous steam Similar calculation can be done for other properties such as internal energy, entropy, and enthalpy. H = HỊ + x(Hg-H) Under phase description, indicate whether the system is composed of saturated liquid, saturated vapor, superheated vapor, or liquid-vapor mixture. Also note that when pressure is given, it is more advisable to use the Superheated Steam Table than the Saturated Steam Table in getting the properties of water at saturation.
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