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The equilibrium constant is equal to 5.00 at 1300 K for the reaction: 2502(g) + O2(g)...
The equilibrium constant is equal to 5.00 at 1300 K for the reaction: 2 50266) + O2(8) = 2 50318). If initial concentrations are [S02- 3.60 M. (02) - 0.45 M, and (S03] - 5.40 M, the system is not at equilibrium and will remain in an unequilibrated state, at equilibrium not at equilibrium and will shift to the right to achieve an equilibrium state. not at equilibrium and will shift to the left to achieve an equilibrium state. 0/1...
The equilibrium constant is equal to 5.00 at 1300 K for the reaction: 2 50266) + O2(8) = 2 50318). If initial concentrations are [S02- 3.60 M. (02) - 0.45 M, and (S03] - 5.40 M, the system is not at equilibrium and will remain in an unequilibrated state, at equilibrium not at equilibrium and will shift to the right to achieve an equilibrium state. not at equilibrium and will shift to the left to achieve an equilibrium state. 0/1...
10) The equilibrium constant is equal to 5.00 at 1300 K for the reaction: 10) 2 SO2(8) + O2(8) - 2 SO3(3). If initial concentrations are [SO2) = 6.00 M, [02] -0.45 M, and (SO3) = 9.00 M, the system is A) not at equilibrium and will shift to the right to achieve an equilibrium state. B) not at equilibrium and will shift to the left to achieve an equilibrium state. C) at equilibrium D) not at equilibrium and will...
At 850 K, the equilibrium constant for the reaction 2 SO, (g) + O2(g) = 250(g) is Kc = 15. If the given concentrations of the three gases are mixed, predict in which direction the net reaction will proceed toward equilibrium. Left No net reaction Right Answer Bank [S02] = 0.20 M [02] = 0.60 M [SO3) = 0.60 M [SO2] = 0.21 M [02] = 0.10 M [SO3] = 0.60 M [SO2] = 0.80 M [02] = 0.50 M...
Question 31 1 pts For the reaction 2502(g) + O2(g) → 2503(8) at a certain temperature, the equilibrium concentrations were observed to be (SO2) = 0.646 M, (O2) = 7.50 x 10-2 M, and (SO3) = 0.650 M. Calculate the value of K for this system at this temperature. 13.5 20.8 8.72 180 Question 32 The solubility of BaCO3(s) in water at a certain temperature is 3.9 x 10-5 mol/L. Calculate the value of Ksp for BaCO3(s) at this temperature....
QUESTION 10 [CLO-6] At 900 K, the equilibrium constant (Kp) for the following reaction is 0.345. 2502 + O2(g) ==== 2503 (g) At equilibrium, the partial pressure of SO2 is 35.0 atm and that of O2 is 15.9 atm. The partial pressure of SO3 is atm 4.21 x 10-3 6.20 x 10-4 82.0 40.2 192
Question 4 The equilibrium constant for reaction (1) below is K. What is the equilibrium constant for equation (2)? (1) SO2(g) + O2(g) - SO3(g) (2) 2503(g) + 250(g) + O2(g)
The reaction and equilibrium constant are provided. 2 SO2(g) + O2(g) 92 SO3(g) K = 5.8 x 103 Which direction will the reaction proceed if [502] = 0.015 M. [02] = 0.010 Mand (SO3) = 0.200 M? no shift shifts to make more product shifts to make more reactant
Just give me the answers MULTIPLE CHOICE. Choose the n a tive that best completes the statement or answer the questi 1) Write the equilibri ne the equilibrium constanter ia for the following reaction in the forward direction 2CH )302)-2006) 4H2O) 2100) + 4H20 A) KICH. Op Bá»™ Ka-2H4 O2 [CO2+ [H2014 CO2 [H2014 2 CH4 - 31021 OK- Dj Ke-2100 H30 ICH 102P 2) Ar elevated temperatures molecular hydrogen and molecular bromine react to partially form hydrogen bromide H2(g)...
10. A study of the system, 4 NH3(g) + 7 O2(g) 2 N2O4(q) + 6 H2O(g), was carried out. A system was prepared with (NH3) = [02] = 3.60 M as the only components initially. At equilibrium. [N204) is 0.60 M. Calculate the equilibrium concentration of O2. a, 3.00 M b. 2.40 M c. 1.50 M d. 2.10 M e. 3.30 M 11. For the reaction, 2 SO2(g) + O2(g) 2 SO.(a), at 450.0 K the equilibrium constant, Kc, has...