A piston/cylinder apparatus initially contains 0.4 kg of saturated water vapor at a pressure of 200 kPa. The water vapor is now heated until the (extensive) volume of the H,0 is 0.5 m³ (state 2). (a)...

A piston/cylinder apparatus initially contains 0.4 kg of saturated water vapor at a<br>pressure of 200 kPa. The water vapor is now heated until the (extensive) volume<br>of the H,0 is 0.5 m³ (state 2).<br>(a) Fill in the following table.<br>H,0<br>State Temp.<br>T(C) P (kPa)<br>Specific<br>volume<br>Volume<br>Specific<br>internal energy<br>u (kJ/kg)<br>2529.1<br>Pressure<br>P,<br>= 200 kPa<br>V (m?)<br>Sat. vapor<br>v (m³/kg)<br>1<br>200<br>0.5<br>state 1.<br>(b) Determine the total work done by the H20 during the process, 1→2.<br>(c) Determine the total heat transfer to the H,0 during the process, 1→2.<br>(d) Draw the process on a P-v diagram. Label both states.<br>(e) EXTRA CREDIT: Determine the change in enthalpy of the H20 from 1>2 and explain why this<br>answer makes sense.<br>

Extracted text: A piston/cylinder apparatus initially contains 0.4 kg of saturated water vapor at a pressure of 200 kPa. The water vapor is now heated until the (extensive) volume of the H,0 is 0.5 m³ (state 2). (a) Fill in the following table. H,0 State Temp. T(C) P (kPa) Specific volume Volume Specific internal energy u (kJ/kg) 2529.1 Pressure P, = 200 kPa V (m?) Sat. vapor v (m³/kg) 1 200 0.5 state 1. (b) Determine the total work done by the H20 during the process, 1→2. (c) Determine the total heat transfer to the H,0 during the process, 1→2. (d) Draw the process on a P-v diagram. Label both states. (e) EXTRA CREDIT: Determine the change in enthalpy of the H20 from 1>2 and explain why this answer makes sense.

Jun 11, 2022

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A piston/cylinder apparatus initially contains 0.4 kg of saturated water vapor at a pressure of 200 kPa. The water vapor is now heated until the (extensive) volume of the H,0 is 0.5 m³ (state 2). (a)...

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