1) 7.5 moles of gas is reversibly compressed from 7.3 L to 1 L at 298 K. Compute the work.?
2) 4633 kg is dumped onto the top of a huge piston of surface area 1m2, and the cylinder contents compress by 0.5 m3. The atmospheric pressure, also bearing on the piston, is 1 bar. The acceleration due to gravity is 9.8 m/2. Compute the work.?
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1) 7.5 moles of gas is reversibly compressed from 7.3 L to 1 L at 298...
1) What volume in L is occupied by 6.15 moles of an ideal gas at a pressure of 4.7 bar at 298 K? 2) The molar constant volume heat capacity of sulfur hexafluoride approaches xR at high temperatures. What is x? Assume ideality. 3) 8 moles of gas is reversibly compressed from 8.3 L to 1 L at 298 K. Compute the work. 4) 1878 kg is dumped onto the top of a huge piston of surface area 1m2, and...
1878 kg is dumped onto the top of a huge piston of surface area 1m2, and the cylinder contents compress by 0.8 m3. The atmospheric pressure, also bearing on the piston, is 1 bar. The acceleration due to gravity is 9.8 m/2. Compute the work.
Ammonia is to be isothermally compressed in a specially designed flow turbine from 1 bar and 100℃ to 50 bar. If the compression is done reversibly, compute the heat and work flows needed per mole of ammonia. a) Ammonia obeys the principle of corresponding states. b)Ammonia satisfies the Clausius equation of state P(V - b) = RT with b=3.730×10-2 m3 /kmol.
An ideal gas is compressed isothermally from 8.07 L to 6.35 L, at a starting pressure of 0.467 atm and temperature of 78.00 °C. 1. How many moles of gas are present? Tries 0/3 2. What is the final pressure (in atm) of the gas? Tries 0/3 3. If the compression is carried out reversibly and isothermally, how much work (in J) is done on the system? Tries 0/3 4. What is the heat flow in part 3? Remember that...
1)A gas is compressed at a constant pressure of 0.800 atm from 8.00 L to 1.00 L. In the process, 410 J of energy leaves the gas by heat. (a) What is the work done on the gas? J (b) What is the change in its internal energy? J 2) A gas increases in pressure from 2.00 atm to 6.00 atm at a constant volume of 1.00 m3 and then expands at constant pressure to a volume of 3.00 m3...
With the data given, help on the calculations please - Tes Name Determination of the Gas Constant, R, and the Purity of KCIO, Data Unknown number or letter Mass of test tube and iron (IIT) oxide 44.5928 Mass of test tube, iron (III) oxide and sample 44.979 8 Mass of test tube and contents after heating 44.8488 Volume of water displaced Barometric pressure 976 mbar Temperature of water temperature of O, 23 Vapor pressure of water at this temperature 21.068_mm...