3) Consider an ideal vapor-compression refrigeration cycle using Freon 410A (see .https://www.freon.com/en-/media/files/freon/freon-410a-si-thermodynamic-properties.pdf) The pressure in the evaporator is 10y kPa (That is, if y = 3 the evaporator pressure is

30 kPa). and the temperature at the exit of the condenser is40°C. The mass flow in the system is (0.05 + w/200) kg/s. (That is, if y =3, then the mass flow is 0.0.065 kg/s). a. Find the enthalpy at the entrance to the compressor.kg (+ 3 kJ/kg) b. Find the enthalpy at the exit of the compressor.kg (+ 5kJ/kg) c. Find the enthalpy at the exit of the condenser.kg (+ 3kJ/kg) d. Find the rate of heat transfer in the evaporator:Q =(+ 300W)