A cylinder fitted with a frictionless piston contains water. Masses are added to the piston so that the pressure in the cylinder is 3.50 × 102 kPa. At state 1, the cylinder contains m = 0.100 kg of saturated liquid water. The water is heated until it all turns into saturated vapor at state 2. At this point, the piston is locked in place so that it cannot move and the temperature is brought to 4.00 × 102 ºC at state 3.

(a) Complete the table below (you only need to enter the numbers as shown below the tables).

Property	State 1	State 2	State 3
Pressure, P (kPa)
Temperature, T (°C)
Specific volume, v (m3/kg)
Volume, V (m3)

(b) If at state 2 the water does not all turn into saturated vapor but gives a quality of 0.920, what is the specific volume in state 2?

A piston-cylinder assembly contains 2.5 kg of saturated refrigerant R-134a with a quality of 10 % at 0 °C (State 1). There is a linear spring mounted on the piston such that when the mixture is heated the pressure reaches 1000 kPa with a volume of 70 L just as the piston touches the stop (State 2). The system is then heated further until a pressure of 1200 kPa is reached (State 3). a) Find the volume of the refrigerant in State 1. b) Calculate the work done by the device during the process from State 1 to State 3. c) Calculate the heat transfer required for this process. Also clearly indicate the direction of the heat transfer (whether into or out of the piston-cylinder system).

A liquid-vapor mixture of water is placed in a rigid container at the state 1 (the specific volume v1=1.159m³/kg and the pressure p1=100kPa). The container is heated until the liquid-vapor mixture just turns into a saturated vapor (the state 2 ) with the pressure p2 unknown. Please:

a) Read the perinent Table to find the temperature of the liquid-vapor mixture atthe state 1, T1, in degree Celcius

b) Read the perinent Table to find the specific volume of saturated liquid, v_f1, in kg/m³; and the specific volume of the saturated vapo, v_gl, in kg/m³, of the liquid-vapor mixture in the state 1

c) Calculate the quality of the liquid - vapor mixture at the state 1, _x1; and determine the quality of the saturated vapor atthe state 2, _x2

_{d) Read the pertinenet Table to determine the pressure of the saturated vapor at state 2, p2, in kPa}

_f) Read the pertinenet Table to determine the specific internal energy of the liquid-vapor mixture at the state 1, u1, in kJ/kg

g) Reaqd the pertinent Table to determine the specific internal energy of the saturated vapor at the state 2, u2m in kJ/kg

h) Calculate the mass-specific heat transfer during the heating process, q, in kJ/kg