given properties determine the indicated missing property, and specify the state of the fluid For water,...

Using the tables for water, determine the specified property at the indicated states. Show the state...

Using the tables for water, determine the specified property at the indicated states. Show the state using a p- and T-v diagrams: At p = 3 bar and v = 0.5 m3/kg, find T in C and u in kJ/kg Correct Values: T = 133.6; u=2196.7 At T = 3200C, v = .03m3/kg, find p in MPa and u in kJ/kg Correct Values p = 7.47MPa: u = 2677.9

For H2O, determine the specified property at the indicated state. Sketch the T-v diagram and locate...

For H2O, determine the specified property at the indicated state. Sketch the T-v diagram and locate the state. a) p = 2 MPa, T = 250°C. Find v in m3 /kg. b) p = 900 kPa, u=2000 kJ/kg. Find T in °C and x. c) p = 1.5 MPa, T = 353°C. Find u in kJ/kg. d) T = 280°C, x = 25%. Find v in m3 /kg

Find the missing properties and give the phase of the substance H2O T = 120°C, v...

Find the missing properties and give the phase of the substance H2O T = 120°C, v = 0.5 m3/kg u =? P =? x =? N2 T = 100 K, x = 0.75 v =? u =? R-410 A: T=-200C, u=220 kJ/kg, P=? x=? R-134A: T=400C, h=400 kJ/kg, u=?, v=?, x=?, P=?

Based on the thermodynamic properties provided for water, determine the amount of energy needed for 2.60...

Based on the thermodynamic properties provided for water, determine the amount of energy needed for 2.60 kg of water to go from -4.00 °C to 74.0 °C. Property Value Units Melting point 0.0 °C Boiling point 100.0 °C ΔHfus 6.01 kJ/mol ΔHvap 40.67 kJ/mol cp (s) 37.1 J/mol ·°C cp (l) 75.3 J/mol ·°C cp (g) 33.6 J/mol ·°C

Based on the thermodynamic properties provided for water, determine the amount of energy released for 160.0...

Based on the thermodynamic properties provided for water, determine the amount of energy released for 160.0 g of water to go from 83.0 °C to -17.5 °C. Property Value Units Melting point 0.0 °C Boiling point 100.0 °C ΔHfusΔHfus 6.01 kJ/mol ΔHvapΔHvap 40.67 kJ/mol cp (s) 37.1 J/mol·°C cp (l) 75.3 J/mol·°C cp (g) 33.6 J/mol·°C

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of...

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 1.25 kg of water decreased from 125 °C to 24.5 °C. Melting point: 0 degrees C Boiling Point: 100 degrees C Delta H(fus): 6.01 kJ/mol Delta H(vap): 40.67 kJ/mol cp(s): 37.1 J/mol x degrees C cp(l): 75.3 J/mol x degrees C cp(g): 33.6 J/mol x degrees C

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of...

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 1.15 kg of water decreased from 113 °C to 40.5 °C. Property Value Units Melting point 0 °C Boiling point 100.0 °C ΔHfus 6.01 kJ/mol ΔHvap 40.67 kJ/mol cp (s) 37.1 J/mol · °C cp (l) 75.3 J/mol · °C cp (g) 33.6 J/mol · °C

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of...

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 0.550 kg of water decreased from 111 °C to 30.5 °C. Property Value Units Melting point 0 °C Boiling point 100.0 °C ΔHfus 6.01 kJ/mol ΔHvap 40.67 kJ/mol cp (s) 37.1 J/mol ·°C cp (l) 75.3 J/mol ·°C cp (g) 33.6 J/mol ·°C

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of...

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 0.350 kg of water decreased from 123 °C to 30.0 °C. Property Value Units Melting point 0 °C Boiling point 100.0 °C ΔHfus 6.01 kJ/mol ΔHvap 40.67 kJ/mol cp (s) 37.1 J/mol ·°C cp (l) 75.3 J/mol ·°C cp (g) 33.6 J/mol ·°C

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of...

Based on the thermodynamic properties provided for water, determine the energy change when the temperature of 1.45 kg of water decreased from 117 °C to 23.5 °C. Property Value Units Melting point 0 °C Boiling point 100.0 °C ΔHfus 6.01 kJ/mol ΔHvap 40.67 kJ/mol cp (s) 37.1 J/mol · °C cp (l) 75.3 J/mol · °C cp (g) 33.6 J/mol · °C