![15. Consider the following equilibrium: H2(g) + 12(g) + 2 HI(g) If the initial [H2] = 0.200 M, [12] = 0.200 M and Keq = 55.6](http://img.homeworklib.com/questions/800df4c0-6f39-11ea-8562-0745594cedca.png?x-oss-process=image/resize,w_560)
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![13. Given [502] = 0.60 mole = 0.60M IL Initial 102]: 0.6omole - 0060 MT TL al equilibrium S03) = 0.250M +234 21 25 0215) + O2](http://img.homeworklib.com/questions/80a20440-6f39-11ea-b131-7d11a7a89077.png?x-oss-process=image/resize,w_560)
![15. Given [2] = 0.20 m [[2]=0.20m keq = 55.6 a ²2HI1g I(M) C(A) H₂co, + I2(8) 0.20 0.20 -- - +27 ECM) 0.20-7 0.20-X 22 1 by k](http://img.homeworklib.com/questions/814d99d0-6f39-11ea-b5b6-3368c13ee4f8.png?x-oss-process=image/resize,w_560)
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13. Consider the following When 0.600 moles of SO and allowed to reach equi Keq value....
1) The Keq for the reaction below at 1530oC is 1.2 X 10-4. Determine the equilibrium...
1) The Keq for the reaction below at 1530oC is 1.2 X 10-4. Determine the equilibrium concentrations of all species when 1 mol/L of nitrogen and oxygen is placed in the vessel and allowed to reach equilibrium. Write out the ICE table to help guide your calculations. N2 (g) + O2 (g) ---> 2 NO (g)
Please answer all six thanks 1) The equilibrium constant for the following reaction is 2.90×10-2 at...
Please answer all six thanks 1) The equilibrium constant for the following reaction is 2.90×10-2 at 1.15×103K. 2SO3(g) ------------------->2SO2(g) + O2(g) If an equilibrium mixture of the three gases in a 17.3 L container at 1.15×103K contains 0.437 mol of SO3(g) and 0.422 mol of SO2, the equilibrium concentration of O2 is M. 2) A student ran the following reaction in the laboratory at 1100 K: 2SO3(g) -------------------->2SO2(g) + O2(g) When she introduced 7.74×10-2 moles of SO3(g) into a 1.00 liter...
Consider the following equilibrium reaction : Heat + 2 SO2 (g) + O2(g) ↔ 2 SO3(g) Assume the above...
Consider the following equilibrium reaction : Heat + 2 SO2 (g) + O2(g) ↔ 2 SO3(g) Assume the above reaction is allowed to reach equilibrium prior to the following changes. Answer the following questions by writing increase, decrease or remain the same on the line. **please also explain why** If the reaction mixture is heated up , the value of the equilibrium constant will _______________________ If SO2 (g) is added to the reaction vessel the concentration of O2(g) will____________________________. If SO3 (g) is...
Use the References to access important values if needed for this question. Dinitrogen tetraoxide is a...
Use the References to access important values if needed for this question. Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N204()22 NO2(g) Three experiments were run starting with different initial amounts of N204(g) ([N204]o in the table). The systems were allowed to reach equilibrium and concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N204(0) 22 NO2(g) Three experiments were run starting with different initial amounts of N204(9) ([N204]o in the table). The systems were allowed to reach equilibrium and the concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the column heading. This will show the mathematical relationship that exists...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N204(9) 2 NO2(g) Three experiments were run starting with different initial amounts of N204(g) ([N2040 in the table). The systems were allowed to reach equilibrium and the concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the column heading. This will show the mathematical relationship that exists...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N2。4(g) 2 NO2(g) Three experiments were run starting with different initial amounts of N204(g) (IN204]o in the table). The systems were allowed to reach equilibrium and the concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the column heading. This will show the mathematical relationship that exists...
Dinitrogen trioxide decomposes according to the following equation with K = 0.128: N2O3 (g) <-> NO2...
Dinitrogen trioxide decomposes according to the following equation with K = 0.128: N2O3 (g) <-> NO2 (g) + NO (g) 2.00 moles of the reactant are placed into a 1.00 liter chamber and allowed to come to equilibrium. Set up the ICE table and the equilibrium expression. Apply the 5 % rule and you will see that x cannot be neglected. Solve the quadratic equation and determine the equilibrium concentrations of the species present.
QUESTION 5 3 poi Consider the equilibrium: 2 SO2(g) + O2(g) = 2 SO3(g) A student...
QUESTION 5 3 poi Consider the equilibrium: 2 SO2(g) + O2(g) = 2 SO3(g) A student places 2.00 moles Soz in a 1.00 L flask. When equilibrium is reached (O) = 0.10 M at 130 °C. Calculate the kc. Hint: use the detectivee method and construct an ICE table. Record your answer as a standard number to 2 significant figures. For example, if the answer is 2.75 x 100 M then you should enter 0.00275 as the answer.
please show work for these problems, correct answers are circled 18. Consider the following equilibrium: Clip)...
please show work for these problems, correct answers are circled
18. Consider the following equilibrium: Clip) + 2NO) = 2NOCK If 12.0 moles of Cly, 10.24 moles of NO and 2.00 moles NOCI are placed in a 2.00 L container and the system moves to the right to get to equilibrium If there are 100 moles NOCI acquilibrium, calculate the key A 0.006 B5.58 19. What will cause the value of key for an exothermic reaction to decrease? A increasing...
Use the References to access important values if needed for this question. Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N204()22 NO2(g) Three experiments were run starting with different initial amounts of N204(g) ([N204]o in the table). The systems were allowed to reach equilibrium and concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N204(0) 22 NO2(g) Three experiments were run starting with different initial amounts of N204(9) ([N204]o in the table). The systems were allowed to reach equilibrium and the concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the column heading. This will show the mathematical relationship that exists...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N204(9) 2 NO2(g) Three experiments were run starting with different initial amounts of N204(g) ([N2040 in the table). The systems were allowed to reach equilibrium and the concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the column heading. This will show the mathematical relationship that exists...
Dinitrogen tetraoxide is a colorless gas at room temperature. It can dissociate into nitrogen dioxide, which is a reddish brown gas. N2。4(g) 2 NO2(g) Three experiments were run starting with different initial amounts of N204(g) (IN204]o in the table). The systems were allowed to reach equilibrium and the concentrations for each gas were measured (in units of moles/Liter). For each of the boxes below, calculate the ratios indicated by the column heading. This will show the mathematical relationship that exists...
QUESTION 5 3 poi Consider the equilibrium: 2 SO2(g) + O2(g) = 2 SO3(g) A student places 2.00 moles Soz in a 1.00 L flask. When equilibrium is reached (O) = 0.10 M at 130 °C. Calculate the kc. Hint: use the detectivee method and construct an ICE table. Record your answer as a standard number to 2 significant figures. For example, if the answer is 2.75 x 100 M then you should enter 0.00275 as the answer.
please show work for these problems, correct answers are circled
18. Consider the following equilibrium: Clip) + 2NO) = 2NOCK If 12.0 moles of Cly, 10.24 moles of NO and 2.00 moles NOCI are placed in a 2.00 L container and the system moves to the right to get to equilibrium If there are 100 moles NOCI acquilibrium, calculate the key A 0.006 B5.58 19. What will cause the value of key for an exothermic reaction to decrease? A increasing...
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