A mixture of 6.85 mol N 2 and 28.04 g NO is heated in a closed...
A mixture of 6.85 mol N 2 and 28.04 g NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm . N 2 ( g ) + O 2 ( g ) − ⇀ ↽ − 2 NO ( g ) K p = 0.101 at 2000 ° C In which direction does the reaction proceed after heating to 2000 °C? The reaction proceeds toward the reactants. Calculate the equilibrium partial pressures of N 2 , O 2 , and NO at 2000 °C. P N 2 = atm P O 2 = atm P NO = atm
Homework Answers
Total pressure will be the same in every situation because of the number of moles of gaseous state in the reactant side equals the number of moles of gaseous state in the product side.
The reaction will proceed in the backwards direction because initially, we have already added NO gas in the mixture so for the reaction being the start we need to produce O2(g) in vessel.
So reaction will move in a backwards direction.
A mixture of 4.37 mol of N2 and 27.74 g of NO is heated in a closed vessel to 2000 °C. After heating, the total pre...
A mixture of 4.37 mol of N2 and 27.74 g of NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm 2NOg) N,)0,) + K 0.101 at 2000 ° C In which direction does the reaction proceed after heating to 2000 °C? O The reaction proceeds toward products The reaction is at equilibrium. The reaction proceeds toward reactants Calculate the equilibrium partial pressures of N2, O2, and...
nixture of 5.09 mol of N2 and 30.33 g of NO is heated in a closed...
nixture of 5.09 mol of N2 and 30.33 g of NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm. N,)+0,) 2no) K-0.101 at 2000 C In which direction does the reaction proceed after heating to 2000 C? The reaction is at equilibrium. The reaction proceeds toward reactants. O The reaction proceeds toward products. Calculate the equilibrium partial pressures of N2, O2, and NO at 2000 C....
A reaction vessel contains an equilibrium mixture of SO2, O2,, and SO3. The reaction proceeds such...
A reaction vessel contains an equilibrium mixture of SO2, O2,, and SO3. The reaction proceeds such that: 2SO2 (g) + O2 (g) ----> <---- 2SO3 (g) The partial pressures at equilibrium are Pso2=0.001111 atm PO2 = 0.002728 atm PSO3 =0.0166 Calculate the Kp for the reaction.
3. {7} Consider equilibrium N2 (g) + 3 H2(g) 5 2NH3(g) K, -4,51 x10-at 450 °C....
3. {7} Consider equilibrium N2 (g) + 3 H2(g) 5 2NH3(g) K, -4,51 x10-at 450 °C. For the mixture below indicate the direction of this equilibrium reaction toward product or toward reactants) at the following partial pressures: 105 atm NH3; 35 atm N2; 495 atm H:
4. Consider the reaction: 2 NO(g) + Br2 (g) 2 NOB (g) Kp = 31.8 at...
4. Consider the reaction: 2 NO(g) + Br2 (g) 2 NOB (g) Kp = 31.8 at 302 K a) If the initial partial pressures are Pro = 108 torr, Per; = 126 torr, ProBr = 275 torr, find Qp and determine which direction the reaction proceeds in to reach equilibrium. 139.17 b) When a mixture of NO, Bra, and H, reaches equilibrium at 302 K, Pno=133 torr and Pers 151 torr. Find PNobr (in torr). [335 torr] 5. lodine gas...
part 1 part 2 A mixture of 0.03771 mol of H70, 0.02921 mol of CH 0.05732...
part 1
part 2
A mixture of 0.03771 mol of H70, 0.02921 mol of CH 0.05732 mol of Co, and 0.05598 mol of Hy is placed in a 10-L steel pressure vessel at 1447 K. The following sulibrium is established: 1 H2O(g) + 1 CH(9) = 100) + 3H2(9) At equilibrium 0.01158 mol of CH is found in the reaction mixture (a) Calculate the equilibrium partial pressures of H20, Che, Co, and a Peg(H₂O) Pea(CH) = Pes(CO) - Peg(H₂) (b)...
1) At 298 K, an equilibrium mixture contains P H2=0.958 atm, P I2= 0.877 atm and...
1) At 298 K, an equilibrium
mixture contains P H2=0.958 atm, P I2= 0.877 atm and P HI=0.020
atm. Please try and answer all!
You must show all your work to receive credit. Watch sig figs! Consider the reaction: 1) At 298 K, an equilibrium mixture contains P H2-0.958 atm, P ½=0.877 atm, and P HI-0.020 atm. Calculate the value of the equilibrium constant Kp? a) (o, o2) 0.938x o.87? b) And what is the value of the equilibrium constant...
A mixture of 4.76e-02 mol of C2H6, 1.41e-02 mol of N2, 1.14e-02 mol of NH3, and...
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...
A mixture of 0.743 atm CIF,, 0.530 atm F2, and 0.476 atm CIF is heated in...
A mixture of 0.743 atm CIF,, 0.530 atm F2, and 0.476 atm CIF is heated in a closed vessel to 700 K. CIF,(8) = CIF(g) + F,() K = 0.140 at 700 K Calculate the equilibrium pressure of each gas at 700 K. PCIF, = PcIFE Enter numeric value
A mixture of 1.71e-02 mol of H2O, 6.70e-02 mol of CH4, 5.69e-02 mol of CO, and...
A mixture of 1.71e-02 mol of H2O, 6.70e-02 mol of CH4, 5.69e-02 mol of CO, and 8.50e-02 mol of H2 is placed in a 1.0-L steel pressure vessel at 1307 K. The following equilibrium is established: H2O(g) + CH4(g) CO(g) + 3 H2(g) At equilibrium 1.21e-02 mol of H2O 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 from the...
A mixture of 4.37 mol of N2 and 27.74 g of NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm 2NOg) N,)0,) + K 0.101 at 2000 ° C In which direction does the reaction proceed after heating to 2000 °C? O The reaction proceeds toward products The reaction is at equilibrium. The reaction proceeds toward reactants Calculate the equilibrium partial pressures of N2, O2, and...
nixture of 5.09 mol of N2 and 30.33 g of NO is heated in a closed vessel to 2000 °C. After heating, the total pressure of the mixture at equilibrium is 3.14 atm. N,)+0,) 2no) K-0.101 at 2000 C In which direction does the reaction proceed after heating to 2000 C? The reaction is at equilibrium. The reaction proceeds toward reactants. O The reaction proceeds toward products. Calculate the equilibrium partial pressures of N2, O2, and NO at 2000 C....
3. {7} Consider equilibrium N2 (g) + 3 H2(g) 5 2NH3(g) K, -4,51 x10-at 450 °C. For the mixture below indicate the direction of this equilibrium reaction toward product or toward reactants) at the following partial pressures: 105 atm NH3; 35 atm N2; 495 atm H:
4. Consider the reaction: 2 NO(g) + Br2 (g) 2 NOB (g) Kp = 31.8 at 302 K a) If the initial partial pressures are Pro = 108 torr, Per; = 126 torr, ProBr = 275 torr, find Qp and determine which direction the reaction proceeds in to reach equilibrium. 139.17 b) When a mixture of NO, Bra, and H, reaches equilibrium at 302 K, Pno=133 torr and Pers 151 torr. Find PNobr (in torr). [335 torr] 5. lodine gas...
part 1
part 2
A mixture of 0.03771 mol of H70, 0.02921 mol of CH 0.05732 mol of Co, and 0.05598 mol of Hy is placed in a 10-L steel pressure vessel at 1447 K. The following sulibrium is established: 1 H2O(g) + 1 CH(9) = 100) + 3H2(9) At equilibrium 0.01158 mol of CH is found in the reaction mixture (a) Calculate the equilibrium partial pressures of H20, Che, Co, and a Peg(H₂O) Pea(CH) = Pes(CO) - Peg(H₂) (b)...
1) At 298 K, an equilibrium
mixture contains P H2=0.958 atm, P I2= 0.877 atm and P HI=0.020
atm. Please try and answer all!
You must show all your work to receive credit. Watch sig figs! Consider the reaction: 1) At 298 K, an equilibrium mixture contains P H2-0.958 atm, P ½=0.877 atm, and P HI-0.020 atm. Calculate the value of the equilibrium constant Kp? a) (o, o2) 0.938x o.87? b) And what is the value of the equilibrium constant...
A mixture of 0.743 atm CIF,, 0.530 atm F2, and 0.476 atm CIF is heated in a closed vessel to 700 K. CIF,(8) = CIF(g) + F,() K = 0.140 at 700 K Calculate the equilibrium pressure of each gas at 700 K. PCIF, = PcIFE Enter numeric value
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