please use thermodnamic principles

In an ideal Rankine cycle with rehcat, steam comes out of the boile (point 4) at 800K and 8MPa. The steam is then run through an isentropic turbine which reduces the pressure down to 1MPa before the reheater brings the temperature back up to 800K. The steam then funs through a second isentropic tubine which reduces the pressure al the way to 20lPa. Uhe Pyromat to analyze the turbines in this cycle What is the expected enthalpy at the outlet of the second turbine foint of? Provide your answer in idike accurate to one decimal place Question 2 1 pts If we want the collective power out of the two turbines to be equal to 3MW, what whould the mass flow rate of the fluld in the cyde be? Provide your answer in kg/s, accurate to two decirmal places. Question 3 1 pts At this mass flow rate, what is the rate at which heat needs to be added in the reheater? Provide your answer in MW, sccurate to two decimak places. In an ideal Rankine cycle with rehcat, steam comes out of the boile (point 4) at 800K and 8MPa. The steam is then run through an isentropic turbine which reduces the pressure down to 1MPa before the reheater brings the temperature back up to 800K. The steam then funs through a second isentropic tubine which reduces the pressure al the way to 20lPa. Uhe Pyromat to analyze the turbines in this cycle What is the expected enthalpy at the outlet of the second turbine foint of? Provide your answer in idike accurate to one decimal place Question 2 1 pts If we want the collective power out of the two turbines to be equal to 3MW, what whould the mass flow rate of the fluld in the cyde be? Provide your answer in kg/s, accurate to two decirmal places. Question 3 1 pts At this mass flow rate, what is the rate at which heat needs to be added in the reheater? Provide your answer in MW, sccurate to two decimak places