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4. Calculate AS for1.0 mol of He(g) that has undergone a reversible expansion from 0.010 m'...
Consider a reversible adiabatic expansion of 1.00 mol of an ideal gas, starting from 1.90 L...
Consider a reversible adiabatic expansion of 1.00 mol of an ideal gas, starting from 1.90 L and 415 K , if 2.0 kJ of work is done by the expansion. The molar heat capacity at constant volume of the gas is 2.5R. R = 8.314 JK−1mol−1. Determine the final temperature of the gas in the process. Determine the final volume of the gas in the process. Determine the final pressure of the gas in the process.
640 g of oxygen gas, O2, ondergo reversible isothermal expansion at 35°C from a volume of...
640 g of oxygen gas, O2, ondergo reversible isothermal expansion at 35°C from a volume of 2.4 to 17.3 m. Assuming ideal gas behaviour, what is the total work performed by the gas? A particular reaction has a standard molar reaction enthalpy of -4362 kJ mol" and a standard molar reaction entropy of +21.6 J K-1 mol- both at 298 K. What is the thermodynamic equilibrium constant for the reaction at 298 K? (Note, rounding errors will have a profound...
22 g of Co, gas is in a container under 1.50 bar. After isothermal reversible expansion,...
22 g of Co, gas is in a container under 1.50 bar. After isothermal reversible expansion, volume of the gas changes from 2 dm to 5 dm'. Calculate the change in the system's entropy? (C: 12 g/mol; O: 16 g/mol) (R-8.314 1/mol.) A-) 6.69 J/K B-) 335.2 J/K C-) 3.81 J/K D-) 0.458 J/K E-) 167.6 J/K
Consider 2.0 moles of N2 gas that undergo a reversible isothermal expansion at 250 K from...
Consider 2.0 moles of N2 gas that undergo a reversible isothermal expansion at 250 K from 3.0 L to 5.0 L. Assume that the gas can be treated as ideal and that it has CV = 5R/2 and a molar mass of 28.01 g/mol. (a). (12 points) Calculate, in kJ/mol, the work, heat, internal energy change, and enthalpy change for the gas. Be sure to show all of your work, including units.
Calculate G, A, and Suniv for each of the following processes and state any approximation made: ...
Calculate G, A,
and Suniv
for each of the following processes and state any approximation
made:
a) reversible melting of 36.0 g of ice at 0oC and 1
atm
b) reversible vaporization of 39 g of C6H6 at
its normal boiling point of 80.1oC and 1 atm
c) adiabatic expansion of 0.100 mol of a perfect gas into vacuum
with initial temperature of 300 K, initial volume of 2.00 L, and
final volume of 6.00 L
Densities of liquid and...
2) Calculate w for the adiabatic expansion of 2.50 mol of an ideal gas at an...
2) Calculate w for the adiabatic expansion of 2.50 mol of an ideal gas at an initial pressure of 2.25 bar from an initial temper- ature of 450. K to a final temperature of 300. K. Write an expression for the work done in the isothermal reversible expan- sion of the gas at 300. K from an initial pressure of 2.25 bar. What value of the final pressure would give the same value of w as the first part of...
5. (20 pts.) The molar heat capacity CP.m of H2O(g) from 373 K to 473 K...
5. (20 pts.) The molar heat capacity CP.m of H2O(g) from 373 K to 473 K at a constant pressure of 1 atm is Cp,l = 30.54 +(1.03x10-2T) where the units of Cp.m are JK mol!. a) (10 pts.) Calculate AH if 1 mol of H20 (g) is heated from 373 to 473 K at a constant pressure of 1 bar. b) (10 pts.) Calculate AU for the same thermodynamic change of state. Assume ideal gas behavior to do this...
A closed system of 2 moles of helium gas ( monatomic) (M=4 g/mol) goes through the...
A closed system of 2 moles of helium gas ( monatomic) (M=4 g/mol) goes through the following reversible process: Process1->2: Isothermic expansion at T=400k form V1=.03 m^3 to V2=.12 m^3 Process 2->3: Adiabatic expansion to T= 325 K and V3 = .2 m^3 Process 3->4: Isothermic compression at T=325K to P4 = 1.1*10^5 Pa Process 4->1: Adiabatic compression (from state 4 back to state 1) A) sketch a PV diagram of tis cycle B) sketch a ST diagram of this...
6) In a reversible Carnot heat engine which operates between reservoirs at Thigh 500 K and...
6) In a reversible Carnot heat engine which operates between reservoirs at Thigh 500 K and Tlow = 300 K with a net power output of 600 W, methane gas is used as working fluid. Methane can be considered here as an ideal gas with M 16.043 g mol-, and average heat capacities c 4 R and cp- 5 R. The cycle operates in a steady state with a substance flow rate of 0.375 mol s . Before the isothermal...
sts b- ve he 14.15 A graduate student places 0.272 mol of PC13(g) and 8.56 x...
sts b- ve he 14.15 A graduate student places 0.272 mol of PC13(g) and 8.56 x 10-4 mol of PC1s(g) into a 0.718-L flask at a certain temperature. PC13(g) is known to decompose as follows: PC13(g) = PC13(g) + Cl2(g) After the reaction attains equilibrium, the student finds that the flask contains 2.51 x 10-4 mol of Cl2. Calculate the equilibrium constant K, for the reaction at this temperature. a 0.114 b 8.51 x 10-2 C 0.157 d 8.88 X...
640 g of oxygen gas, O2, ondergo reversible isothermal expansion at 35°C from a volume of 2.4 to 17.3 m. Assuming ideal gas behaviour, what is the total work performed by the gas? A particular reaction has a standard molar reaction enthalpy of -4362 kJ mol" and a standard molar reaction entropy of +21.6 J K-1 mol- both at 298 K. What is the thermodynamic equilibrium constant for the reaction at 298 K? (Note, rounding errors will have a profound...
22 g of Co, gas is in a container under 1.50 bar. After isothermal reversible expansion, volume of the gas changes from 2 dm to 5 dm'. Calculate the change in the system's entropy? (C: 12 g/mol; O: 16 g/mol) (R-8.314 1/mol.) A-) 6.69 J/K B-) 335.2 J/K C-) 3.81 J/K D-) 0.458 J/K E-) 167.6 J/K
Calculate G, A,
and Suniv
for each of the following processes and state any approximation
made:
a) reversible melting of 36.0 g of ice at 0oC and 1
atm
b) reversible vaporization of 39 g of C6H6 at
its normal boiling point of 80.1oC and 1 atm
c) adiabatic expansion of 0.100 mol of a perfect gas into vacuum
with initial temperature of 300 K, initial volume of 2.00 L, and
final volume of 6.00 L
Densities of liquid and...
2) Calculate w for the adiabatic expansion of 2.50 mol of an ideal gas at an initial pressure of 2.25 bar from an initial temper- ature of 450. K to a final temperature of 300. K. Write an expression for the work done in the isothermal reversible expan- sion of the gas at 300. K from an initial pressure of 2.25 bar. What value of the final pressure would give the same value of w as the first part of...
5. (20 pts.) The molar heat capacity CP.m of H2O(g) from 373 K to 473 K at a constant pressure of 1 atm is Cp,l = 30.54 +(1.03x10-2T) where the units of Cp.m are JK mol!. a) (10 pts.) Calculate AH if 1 mol of H20 (g) is heated from 373 to 473 K at a constant pressure of 1 bar. b) (10 pts.) Calculate AU for the same thermodynamic change of state. Assume ideal gas behavior to do this...
6) In a reversible Carnot heat engine which operates between reservoirs at Thigh 500 K and Tlow = 300 K with a net power output of 600 W, methane gas is used as working fluid. Methane can be considered here as an ideal gas with M 16.043 g mol-, and average heat capacities c 4 R and cp- 5 R. The cycle operates in a steady state with a substance flow rate of 0.375 mol s . Before the isothermal...
sts b- ve he 14.15 A graduate student places 0.272 mol of PC13(g) and 8.56 x 10-4 mol of PC1s(g) into a 0.718-L flask at a certain temperature. PC13(g) is known to decompose as follows: PC13(g) = PC13(g) + Cl2(g) After the reaction attains equilibrium, the student finds that the flask contains 2.51 x 10-4 mol of Cl2. Calculate the equilibrium constant K, for the reaction at this temperature. a 0.114 b 8.51 x 10-2 C 0.157 d 8.88 X...
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