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(19) In question (12) a catalyst would shift the equilibrium to...
tant " (16) In question (12) the removal of so, (g) will shift the equilibrium to...
tant " (16) In question (12) the removal of so, (g) will shift the equilibrium to the (a) right (b) left (c) no shift. (17) In question (12) an increase in pressure will shift the equilibrium to (a) left (b) right (c) middle (d) no shift (18) in question (12) assuming the reaction is endothermic to the right, a decrease in temperature will shift the equilibrium to the (a) left (b) right (c) no shift since it is an equilibrium...
(1) Consider SO2 (g) + 2H2S(g) = 3(g) + 2H2O(1) AH : (i) SO2 (g) =...
(1) Consider SO2 (g) + 2H2S(g) = 3(g) + 2H2O(1) AH : (i) SO2 (g) = -296.8 KJ/mol (ii) H2S (g) = -20.4 KJ/mol (iii) H20 (1) = -285.84 KJ/mol AH for the above reaction is: (a) 234.08 KJ (b)-234.08 KJ (c) 31.36 kJ (d) -31.36 KJ (e) None (2) The above reaction is (a) Endothermic (b) Exothermic (c) entropic (3) in k = Ae Ea/RT, Ea is (a) Activation Energy (b) 8.314 J/mol.K (c) Rate constant (4) In a...
6. For the following reaction at equilibrium, which change will cause the equilibrium to shift to...
6. For the following reaction at equilibrium, which change will cause the equilibrium to shift to the left? sle . 2NOBr(g) = 2NO(g) + Br2(g) AH®rxn = 30 kJ/mol A) Decrease the temperature.se (0.5 pt) B) Increase the temperature. C) Increase the container volume. D) Remove some NO. E) Add more NOBr. DOLDS F) Remove some Br2.
1.For the reaction at equilibrium 2 SO3↔ 2 SO2 + O2 (∆Horxn= 198 kJ/mol), if we...
1.For the reaction at equilibrium 2 SO3↔ 2 SO2 + O2 (∆Horxn= 198 kJ/mol), if we increase the reaction temperature, the equilibrium will (1 point ) * No shift None of the above Question lacks sufficient information Shift to the right 2. For the equilibrium reaction 2 SO2(g) + O2(g) ↔ 2 SO3(g), ∆Horxn = -198 kJ/mol. Which one of these factors would cause the equilibrium constant to increase? (1 point ) * Add a catalyst Decrease the temperature None...
19) Consider the following reaction, equilibrium concentrations, and equilibrium constant at a particular temperature. Determine the...
19) Consider the following reaction, equilibrium concentrations, and equilibrium constant at a particular temperature. Determine the equilibrium concentration of H2O(g). C2H4(8) + H2O(g) - C2H5OH(g) Kc = 9.0 x 103 (C2H4leq=0.015 M [C2H5OHleq=1.69 M A) 1.0 M B) 9.9 x 10-7 M C) 0.013 M D) 1.68 M E) 80.M 20) Consider the following reaction at equilibrium. What effect will increasing the volume of the reactic mixture have on the system? 20) 2 H2S(8) + 3 O2(g) + 2 H2O(g)...
A reaction has an equilibrium constant of Kp=0.061 at 27 ∘C. Part A Find ΔG∘rxn for...
A reaction has an equilibrium constant of Kp=0.061 at 27 ∘C. Part A Find ΔG∘rxn for the reaction at this temperature. Find for the reaction at this temperature. 6.98 kJ 0.839 kJ -6.98 kJ 0.628 kJ Part B Above what temperature does the following reaction become nonspontaneous? 2 H2S(g) + 3 O2(g) → 2 SO2(g) + 2 H2O(g) ΔH = -1036 kJ; ΔS = -153.2 J/K 298 K 158.7 K 6.762 × 103 K This reaction is nonspontaneous at all...
Hello! Can someone answer this question and explain it? Thank you! 8. Consider the following equilibrium....
Hello! Can someone answer this question and explain it? Thank
you!
8. Consider the following equilibrium. The AHrxn-- 116.2 kJ/mol 2NO(g) + O2(B) 2NO2(g) If the following changes are made to the reaction, in which direction will the equilibrium shift? (a) NO is added to the reaction flask. (b) O2 is removed from the reaction flask (C) NO2 is removed from the reaction flask (d) The volume of the flask is doubled (e) The temperature is increased
please answer 24 and 25 Use this table to answer the question that follows. Thermodynamic Quantities...
please answer 24 and 25
Use this table to answer the question that follows. Thermodynamic Quantities for Selected Substances at 298.15 K (25°C) Substance AF(kJ/mol AG (kJ/mol). S(J/K-mol) O2 (g) 205.0 S (s, rhombic) SO2(g) SO (8) 0 -269.9 -395.2 -300.4 -370.4 31.88 248.5 256.2 23. Use the above thermodynamic table to calculate the value of ASO at 25 °C for the following reaction. 250,(8) - 2502(g) + O2(g) A. -189.6J/K B. +189.6 J/K C. -15.4 J/K D. +15.4 J/K...
Consider the following reaction and its equilibrium constant: SO2(g) + NO2(8) - SO3(g) + NO(g) Kc=0.33...
Consider the following reaction and its equilibrium constant: SO2(g) + NO2(8) - SO3(g) + NO(g) Kc=0.33 A reaction mixture contains 1.0 mol L-1 SO2, 0.50 mol L-1 NO2,0.50 mol L-1 SO3, and 1.0 mol L-1 NO. Which of the following statements is TRUE concerning this system? A) The reaction will shift in the direction of reactants. B) The system is at equilibrium. C) The reaction quotient will decrease. D) The reaction will shift in the direction of products. E) The...
problem #9 Calculate the equilibrium constant for the following reaction at 25°C. 2H2(g) + O2(g) 2H20cv)...
problem #9 Calculate the equilibrium constant for the following reaction at 25°C. 2H2(g) + O2(g) 2H20cv) Given the following standard free-energy: H2O , -237.2 KJ/mol at 25°C. Problem #10. Given the following data at 25°C: substance sº (J/mol.K) AH', (KJ/mol) 240.45, 33.8 304.33 9.66 NO 249) N2O160) (a) Calculate the value of A Gº for the following reaction at 25°C: 2 NO2(9) N20 (9) (b) Is the formation of NO a spontaneous process at 25°C and standard-state conditions? (a) What...
tant " (16) In question (12) the removal of so, (g) will shift the equilibrium to the (a) right (b) left (c) no shift. (17) In question (12) an increase in pressure will shift the equilibrium to (a) left (b) right (c) middle (d) no shift (18) in question (12) assuming the reaction is endothermic to the right, a decrease in temperature will shift the equilibrium to the (a) left (b) right (c) no shift since it is an equilibrium...
(1) Consider SO2 (g) + 2H2S(g) = 3(g) + 2H2O(1) AH : (i) SO2 (g) = -296.8 KJ/mol (ii) H2S (g) = -20.4 KJ/mol (iii) H20 (1) = -285.84 KJ/mol AH for the above reaction is: (a) 234.08 KJ (b)-234.08 KJ (c) 31.36 kJ (d) -31.36 KJ (e) None (2) The above reaction is (a) Endothermic (b) Exothermic (c) entropic (3) in k = Ae Ea/RT, Ea is (a) Activation Energy (b) 8.314 J/mol.K (c) Rate constant (4) In a...
6. For the following reaction at equilibrium, which change will cause the equilibrium to shift to the left? sle . 2NOBr(g) = 2NO(g) + Br2(g) AH®rxn = 30 kJ/mol A) Decrease the temperature.se (0.5 pt) B) Increase the temperature. C) Increase the container volume. D) Remove some NO. E) Add more NOBr. DOLDS F) Remove some Br2.
19) Consider the following reaction, equilibrium concentrations, and equilibrium constant at a particular temperature. Determine the equilibrium concentration of H2O(g). C2H4(8) + H2O(g) - C2H5OH(g) Kc = 9.0 x 103 (C2H4leq=0.015 M [C2H5OHleq=1.69 M A) 1.0 M B) 9.9 x 10-7 M C) 0.013 M D) 1.68 M E) 80.M 20) Consider the following reaction at equilibrium. What effect will increasing the volume of the reactic mixture have on the system? 20) 2 H2S(8) + 3 O2(g) + 2 H2O(g)...
Hello! Can someone answer this question and explain it? Thank
you!
8. Consider the following equilibrium. The AHrxn-- 116.2 kJ/mol 2NO(g) + O2(B) 2NO2(g) If the following changes are made to the reaction, in which direction will the equilibrium shift? (a) NO is added to the reaction flask. (b) O2 is removed from the reaction flask (C) NO2 is removed from the reaction flask (d) The volume of the flask is doubled (e) The temperature is increased
please answer 24 and 25
Use this table to answer the question that follows. Thermodynamic Quantities for Selected Substances at 298.15 K (25°C) Substance AF(kJ/mol AG (kJ/mol). S(J/K-mol) O2 (g) 205.0 S (s, rhombic) SO2(g) SO (8) 0 -269.9 -395.2 -300.4 -370.4 31.88 248.5 256.2 23. Use the above thermodynamic table to calculate the value of ASO at 25 °C for the following reaction. 250,(8) - 2502(g) + O2(g) A. -189.6J/K B. +189.6 J/K C. -15.4 J/K D. +15.4 J/K...
problem #9 Calculate the equilibrium constant for the following reaction at 25°C. 2H2(g) + O2(g) 2H20cv) Given the following standard free-energy: H2O , -237.2 KJ/mol at 25°C. Problem #10. Given the following data at 25°C: substance sº (J/mol.K) AH', (KJ/mol) 240.45, 33.8 304.33 9.66 NO 249) N2O160) (a) Calculate the value of A Gº for the following reaction at 25°C: 2 NO2(9) N20 (9) (b) Is the formation of NO a spontaneous process at 25°C and standard-state conditions? (a) What...
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