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Consider the equilibrium system: N204

  1. Consider the equilibrium system: N204 (g) = 2 NO2 (g) for which the Kp = 0.1134 at 25 C and deltaH rx is 58.03 kJ/mol. Assume
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    2. Vee asked by Vee
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  2. N204 (l) Delta Hf (kJ/mol) = -20E cell S (J/mol.K) = 209 N204(g) Delta Hf (kJ/mol) = 10 E cell S (j/mol.k) = 304.1 Given the
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    2. Sara asked by Sara
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  3. A 0.25 mol sample of n204 dissociates and comes to equilibrium in a 1.5 L flask at 100 degrees C. The reaction is N2O4 > 2 NO2.
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    2. Marie Genvieve asked by Marie Genvieve
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  4. following equilibrium system with a Kc of 1.23E-03:C3H6O (aq) + 2C2H6O (aq)--> C7H16O2 (aq) + 2H2O (l) 1.What is the equilibrium
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    2. cateye asked by cateye
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  5. A small amount of product is added to the equilibrium system below.H2(g) + I2(g) ⇔ 2HI(g) Predict the result. a) The
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  6. For a class demonstration, your physics instructor pours 1.16 kg of steam at 100.0°C over 4.69 kg of ice at 0.0°C and allows
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    2. help me please asked by help me please
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  7. For a class demonstration, your physics instructor pours 1.16 kg of steam at 100.0°C over 4.69 kg of ice at 0.0°C and allows
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    2. please help me asked by please help me
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  8. According to Le Châtelier’s principle, what happens when a system in equilibrium is subjected to a change?The equilibrium is
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  9. 2HI(g)--H2(g) + I2(g) k eq= 8.02.0 mol of HI are placed in a 4.0L container, and the system is allowed to reach equilibrium.
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    2. George asked by George
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  10. 2HI(g)--H2(g) + I2(g) k eq= 8.02.0 mol of HI are placed in a 4.0L container, and the system is allowed to reach equilibrium.
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    2. George asked by George
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