Calculate the pressure exerted by 1.0 mol C2H6 behaving as a perfect gas
#20 Physical Chemistry Help!
[20] Calculate the pressure exerted by 1.0 mol H2S behaving as a van der Waals gas when it is confined under the following conditions: (1) at 273.15 K in 22.414 dm3, (ii) at 500 K in 150 cm
2. (15pts) Calculate the pressure exerted by 1.0 mol C2Ho behaving as i) as an ideal gas ii) as a van der Waals gas when it is confined under the following conditions: at 600 K in 200 cm3. (For C2Ho:a-5.507 atm dm mor2 and b-6.51x102 dm3 mor')
2. (15pts) Calculate the pressure exerted by 1.0 mol C2Ho behaving as i) as an ideal gas ii) as a van der Waals gas when it is confined under the following conditions: at...
Calculate the pressure exerted by 1.2 mol of gas in a volume of 28.2 L and at a temperature of 334 K.
Calculate the pressure (in kPa) exerted by 1.3 mol of gas in a 13 L flask at 22
A mixture of 0.02138 mol of C2H6,
0.006096 mol of N2, 0.01567 mol of NH3, and
0.02233 mol of C2H4 is placed in a 1.0-L
steel pressure vessel at 5155 K. The following equilibrium is
established:
3 C2H6(g) + 1 N2(g)
2 NH3(g) + 3
C2H4(g)
At equilibrium 0.0006616 mol of N2 is found in
the reaction mixture.
(a) Calculate the equilibrium partial pressures of
C2H6, N2, NH3, and
C2H4.
Peq(C2H6) = .
Peq(N2) = .
Peq(NH3) = .
Peq(C2H4)...
Determine the compression factor to 1 mol of C2H6(g). They are at container of 50dm^3 at 27 Canid a pressure of 0.2atm. Indicate if this is a perfect gas.
9. Calculate the pressure exerted by 5.00 mol of Co2 in a 1.00 L vessel at 300 K (a) assuming the gas behaves ideally and (b) using the van der Waals equation. (a= 3.610 L'atm/mol, and b = 0.0429 L/mol).
(b) The constant-pressure heat capacity of a sample of 1 00 mol of a perfect gas was found to vary with temperature according to the expression Cp/(J K)20 17 + 0 4001 (TK) Calculate q, w, AU and AH when the temperature is raised from 0°C to 100°C ) at constant pressure (u) at constant volume (10)
(b) The constant-pressure heat capacity of a sample of 1 00 mol of a perfect gas was found to vary with temperature according...
Determine the pressure exerted by 3.99 mol of gas in a 2.92-L container at 32oC
A mixture of 4.76e-02 mol of C2H6, 1.41e-02 mol of N2, 1.14e-02 mol of NH3, and 2.46e-02 mol of C2H4 is placed in a 1.0-L steel pressure vessel at 1624 K. The following equilibrium is established: 3 C2H6(g) + N2(g) 2 NH3(g) + 3 C2H4(g) At equilibrium 7.41e-03 mol of NH3 is found in the reaction mixture. Calculate the equilibrium pressures of all gases in the reaction vessel and the value of KP for the reaction. Pick the correct statement...