2.00 mol diatomic perfect gas molecules, for which Cp = 7/2R, is changed from 25°C and...
2.00 mol diatomic perfect gas molecules, for which Cp = 7/2R, is changed from 25°C and 1.50 atm to 135°C and 7.00 atm. Without doing any calculations, is the change in temperature or the change in pressure more important in determining the overall change in entropy (of the system)? Why? What can you conclude about the sign of ΔSsys . Calculate ΔSsys for the change.
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2.00 mol diatomic perfect gas molecules, for which Cp = 7/2R, is
changed from 25°C and...
A sample of 1.00 mol perfect gas molecules with Cp,m = 7/2R and at 298 K...
A sample of 1.00 mol perfect gas molecules with Cp,m = 7/2R and at 298 K and 1.00 atm is put through the following cycle: (a) Constant volume heating to twice its initial pressure, (b) Reversible, adiabatic expansion back to its initial temperature, (c) reversible isothermal compression back to 1.00 atm. Calculate q, w, ΔU, and ΔH for each step and overall (assume the initial temp is 298 K).
A sample of 1.00 mol perfect gas molecules
A sample of 1.00 mol perfect gas molecules with Cp,m = 7/2 R is put through the following cycle:(a) Constant-volume heating to twice its initial volume,(b) Reversible, adiabatic expansion back to its initial temperature,(c) Reversible isothermal compression back to 1.00 atm. Calculate q, w, ?U, and ?H for each step and overall.
5. Calculate the change in entropy of an ideal gas when 2.00 moles of it is...
5. Calculate the change in entropy of an ideal gas when 2.00 moles of it is changed from 25 °C and 1.50 atm to 135 °C and 7.00 atm. You may assume that Cp.m=5/2 R. (10 pts) J/K
2.00 mol of neon is expanded isothermically at room temperature from 2.00 atm to 1.00 atm...
2.00 mol of neon is expanded isothermically at room temperature from 2.00 atm to 1.00 atm and is then heated from room temperature to 125 C at a constant pressure of 1.00 atm. a) What is the change in entropy for the overall process? b) What is the change in entropy for the process with the same initial and final states as in part (a), but in which the gas is first heated at constant pressure and then expanded isothermically?...
The temperature of 5.58 mol of an ideal diatomic gas is increased by 31.1 ˚C without...
The temperature of 5.58 mol of an ideal diatomic gas is increased by 31.1 ˚C without the pressure of the gas changing. The molecules in the gas rotate but do not oscillate. (a) How much energy is transferred to the gas as heat? (b) What is the change in the internal energy of the gas? (c) How much work is done by the gas? (d) By how much does the rotational kinetic energy of the gas increase?
A 2.00 mol sample of a diatomic ideal gas expands slowly and adiabatically from a pressure...
A 2.00 mol sample of a diatomic ideal gas expands slowly and adiabatically from a pressure of 5.04 atm and a volume of L2 Lto a final volume of 30.8 L (a) What is the final pressure of the gas? 1.44 atm (b) What are the initial and final temperatures? initial 385.72 final 269.39 (c) Find Qfor the gas during this process. 0 (d) Find ??¡nt for the gas during this process. What is the relationship between the internal energy...
PChem 6. 2.00 mol of a perfect gas at 35°C is expanded reversibly and adiabatically to...
PChem 6. 2.00 mol of a perfect gas at 35°C is expanded reversibly and adiabatically to 10 °C. Assuming the molar volume heat capacity Cm = 28.2 K mol, calculate the heat exchange, work, internal energy change, entropy change, and enthalpy change of the system. (20 pts)
Please answer all three parts and show work. Thank you! 1. An ideal gas assumes molecules...
Please answer all three parts and show work. Thank you!
1. An ideal gas assumes molecules are point particles and do not interact with each other. In reality, molecules occupy space! To correct for this, the ideal gas equation of state is adjusted to take the volume occupied by the molecules into account for a real gas: PV = nRT or P = nRTV is modified to P = nRT/(V-nb) (IDEAL GAS) (REAL GAS Where "b" is related to the...
(3). A sample of 1.00 mol ideal gas molecules with Cp, m = 7/2 R is...
(3). A sample of 1.00 mol ideal gas molecules with Cp, m = 7/2 R is initially at p = 1.00 bar and V = 22.44 L and then put thought the following cycle in reversible processes: (a) constant-pressure expansion to twice its initial volume, (b) constant-volume cooling to its initial temperature, (c) isothermal-compression back to 1.00 bar. Calculate q, w, ΔU, ΔH, ΔS for each process and for the whole cycle. (20 pts)
A constant volume 2.00 L flask containing 0.376 mol of an ideal gas is warmed from...
A constant volume 2.00 L flask containing 0.376 mol of an ideal gas is warmed from 5.00°C to 25.0°C. What is the final pressure of the gas? 27. (A) 4.60 atm (C) 0.386 atm (B) 4.52 atm (D) 0.233 atm What volume of oxygen gas is produced at 8 °C and 0.950 atm from 21.8 kg of carbon dioxide and an excess of water via the overall photosynthetic reaction? 28. 6CO2(g) + 6H20(1)CoH1206(s)+ 602(g) (A) 12.0 L (C) 1.20x104 L...
5. Calculate the change in entropy of an ideal gas when 2.00 moles of it is changed from 25 °C and 1.50 atm to 135 °C and 7.00 atm. You may assume that Cp.m=5/2 R. (10 pts) J/K
A 2.00 mol sample of a diatomic ideal gas expands slowly and adiabatically from a pressure of 5.04 atm and a volume of L2 Lto a final volume of 30.8 L (a) What is the final pressure of the gas? 1.44 atm (b) What are the initial and final temperatures? initial 385.72 final 269.39 (c) Find Qfor the gas during this process. 0 (d) Find ??¡nt for the gas during this process. What is the relationship between the internal energy...
PChem 6. 2.00 mol of a perfect gas at 35°C is expanded reversibly and adiabatically to 10 °C. Assuming the molar volume heat capacity Cm = 28.2 K mol, calculate the heat exchange, work, internal energy change, entropy change, and enthalpy change of the system. (20 pts)
Please answer all three parts and show work. Thank you!
1. An ideal gas assumes molecules are point particles and do not interact with each other. In reality, molecules occupy space! To correct for this, the ideal gas equation of state is adjusted to take the volume occupied by the molecules into account for a real gas: PV = nRT or P = nRTV is modified to P = nRT/(V-nb) (IDEAL GAS) (REAL GAS Where "b" is related to the...
A constant volume 2.00 L flask containing 0.376 mol of an ideal gas is warmed from 5.00°C to 25.0°C. What is the final pressure of the gas? 27. (A) 4.60 atm (C) 0.386 atm (B) 4.52 atm (D) 0.233 atm What volume of oxygen gas is produced at 8 °C and 0.950 atm from 21.8 kg of carbon dioxide and an excess of water via the overall photosynthetic reaction? 28. 6CO2(g) + 6H20(1)CoH1206(s)+ 602(g) (A) 12.0 L (C) 1.20x104 L...
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