During a non-flow thermodynamic process(1-2) executed by a perfect gas, the he interaction (Q1-2 = W1-2) when the process is A Isentropic B Polytropic C Isothermal Adiabatic
Q: A monatomic ideal gas initially fills a V0 = 0.45 m3 container at P0 = 85 kPa. The gas undergoes an…
A: Given, Initial volume, V1=0.45 m3 Final volume, V2=1.4 m3 Initial pressure, P1=85 kPa=85000 Pa
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Q: A monatomic ideal gas initially fills a V0 = 0.35 m3 container at P0 = 75 kPa. The gas undergoes an…
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- During a non-flow thermodynamic process (1-2) executed by a perfect gas, In which process the heat interaction is equal to the work interaction (Q1-2 = W1-2).The fluid is heated from 125 degrees Fahrenheit to 225 degrees Fahrenheit. Consider an ideal gas with the following characteristics: R = 85 ft-lbf/lbm-R Cp = 0.35 + 0.000325T BTU/lbm-R If the heating is at constant pressure, (e) the value of k at 160 degrees Celsius. If the fluid undergoes an isentropic process, determine (f) non-flow work and (g) steady-flow work. (For item f and g, use the value of k at 160 degrees Celsius).Thermodynamic. Determine the work needed to compress from V1=30 lt to V2=5 lt a gas applying a constant pressure of 2.5atm.
- Thermodynamic problem. If the pressure of a gas is a function of volume p(V)=(24atm lt)/V +.5atm (1atm/lt) V Determine the work required to compress from V1=30 lt to V2=5 lt.A monatomic ideal gas initially fills a V0 = 0.35 m3 container at P0 = 75 kPa. The gas undergoes an isobaric expansion to V1 = 0.85 m3. Next it undergoes an isovolumetric cooling to its initial temperature T0. Finally it undergoes an isothermal compression to its initial pressure and volume. Part (h) Calculate the work done by the gas, W3, in kilojoules, during the isothermal compression (third process). Part (i) Calculate the change in internal energy, ΔU3, in kilojoules, during the isothermal compression (third process). Part (j) Calculate the heat absorbed Q3, in kilojoules, during the isothermal compressions (third process).Thermodynamic problem. ou have a system in which we can go from point A to point B using two equations for pressure as a function of volume.p1(V) = 1atm + (0.25 atm/ lt^2 ) V ^2 and p2 (V) =(1.25 atm/lt) V a) Verify that the pressure is the same for both equations when the volume is Vi=4lt and Vf=1lt.b) Would you expect the work to be the same? in compression work given these volume values?c) Calculate the work in both cases, compare and explain.
- Help me with this thermodynamics problemRank the following thermodynamic process by the work done by the system. (Highest positive should be ranked 1. Assume v2>v1 and p1>p2>p3In determining the average rate of heating of a tank of 20% sugar syrup, thetemperature at the beginning was 20°C and it took 30 min to heat to 80°C. Thevolume of the sugar syrup was 50 ft3 and its density 66.9 lb/ft3. The specific heat ofthe sugar syrup is 0.9 Btu lb-1°F-1.(a) Convert the specific heat to kJ kg-1°C-1.(b) Determine the rate of heating, that is the heat energy transferred in unit time, in SI units (kJ s-1)
- Thermodynamics. Help me out with detailed explanation. 1. Describe in detail the Joule-Thomson experiment. Include in your descriptionthe aim, apparatus, setup, results, relevant formulae and potentialapplication(s) of the experiment. 2. Explain, using appropriate example(s), how does Clausius statement of thesecond law set an upper limit to the thermal efficiency of any heat engine, andto the coefficient of performance of a refrigerator.1 kg of an ideal gas undergoes an isentropic process from 780 kPa gage and a volume of 0.017 cubic meter to a final volume of 0.1 cubic meter. If Cv = 0.38 kJ/kg-K and Cp = 0.52 kJ/kg-K, determine: (ANSWER MUST BE EXACT TO CHOICES) a) the final temperature in degrees Celsius CHOICES -233 -217 -171 b) the final pressure in kPa CHOICES 78.05 69.36 68.84 c) the change in enthalpy in kJ CHOICES -22.96 -24.56 -26.65 d) the work non flow in kJ CHOICES 19.52 16.97 17.13Apply the second law to develop the absolute thermodynamic temperature scale.