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Difference (from prior author revision)
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Changed: 2c2,5
a. Equilibrium requires a(an) ________________ reaction and a(an) ____________________ system (or container).
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a1. What is the "silly" (one may even call it "stupid") phrase Mr. McLeod makes us memorize to remember the overarching understanding of Equilibrium?
a2. Equilibrium requires a(an) ________________ reaction and a(an) ____________________ system (or container).
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Changed: 38,42c41
h. Define LeChatelier's Principle:
i. What 3 other important information do need to understand about the principle than the above definition (it is 2 in your notes but I added a thrid).
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h. From your notes, what are the 3 important concepts in Equilibrium?
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Added: 48a49
ia. Define LeChatelier's Principle:
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Changed: 51,53c52,54
j. For the chemical reaction, 2 NO(g) + 1 O2(g) <==> 2 NO2(g) + Energy
Stress: __Decreasing temperature (______________________)
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ib. What 2 additional pieces of information (not part of definition) do you need to understand this concept?
1)
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Changed: 55c56
How rxn tries to remove stress: _________________________________________________
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Changed: 57c58,62
Circle: Make more product or more reactant
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j. For the chemical reaction,
2 NO(g) + 1 O2(g) <==> 2 NO2(g) + Energy
Stress: Decreasing temperature (______________________)
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Changed: 59c64
Circle: Favoring: Forward (exo or endothermic) rxn or Backward ( exo or endothermic) rxn
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How rxn tries to remove stress: _________________________________________________
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Changed: 61c66
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
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Circle: Make more product or more reactant (fill in for pressure changes)__________________
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Circle: Favoring: Forward rxn or Backward rxn: (fill in for temperature changes) _____________
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Added: 63a70
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
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Changed: 68c76
Stress: __Increasing pressure (______________________)
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Stress:Increasing pressure (______________________)
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Changed: 72,74c80
Circle: Make more product or more reactant
Circle: Favoring: Forward rxn or Backward rxn
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Circle: Make more product or more reactant (fill in for pressure changes)__________________
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Changed: 76c82
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
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Circle: Favoring: Forward rxn or Backward rxn: (fill in for temperature changes) _____________
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Added: 77a84,85
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
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Added: 79a88,89
l. For the following chemical reaction in the LeChatlier's Principle Lab,:
(yellow) 2 CrO42- + 2 H3O+ <==> Cr2O72- + H2O (orange)
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Changed: 81,83c91
l. For the following chemical reaction:(yellow) 2 CrO42- + 2 H3O+ <==> Cr2O72- + H2O (orange)
Stress: Adding in NaOH (_______________________________________________________________)
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Stress: Adding in NaOH (_______________________________________________________________)
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Changed: 87c95
Circle: Make more product or more reactant
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Circle: Make more product or more reactant (fill in for pressure changes)__________________
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Changed: 89c97
Circle: Favoring: Forward rxn or Backward rxn
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Circle: Favoring: Forward rxn or Backward rxn: (fill in for temperature changes) _____________
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Changed: 91c99
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
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Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
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Added: 94a103
Changed: 96,98c105
m. At 300degC, the following chemical reaction reaches equilibrium in a 2.5L container.
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m. At 300.degC, the following chemical reaction reaches equilibrium in a 2.50L container.
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Changed: 121c128
n. At 25deg C, the following chemical reaction occurs in a 0.5L container and has a K=0.045.
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n. At 25.0deg C, the following chemical reaction occurs in a 0.500L container and has a K=0.0450.
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Changed: 143c150
a 1.00-L container initially has 3.50 moles of SO2 and 2.00mole O2. If 1.30moles of O2 react to reach equilibrium, what are the equilibrium concentrations of all species and then calculated K (equilibrium constant). Include units of K? 2014-2015 DO NOT DO THIS PROBLEM
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a 1.00-L container initially has 3.50 moles of SO2 and 2.00mole O2. If 1.30moles of O2 react to reach equilibrium, what are the equilibrium concentrations of all species and then calculated K (equilibrium constant). Include units of K? 2015-2016 DO NOT DO THIS PROBLEM
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a1. What is the "silly" (one may even call it "stupid") phrase Mr. McLeod makes us memorize to remember the overarching understanding of Equilibrium?
a2. Equilibrium requires a(an) ________________ reaction and a(an) ____________________ system (or container).
b. Define Equilibrium: _______________________________________________________________
c1. When the reaction is "over" what is the main difference about what is in the reaction bucket if one compares a reversible reaction and an irreversible reaction.
c2. What is meant by Dynamic equilibrium?
c3. Why are some reactions reversible and some are irreversible (Hint, has to do with amount of reactant matter and Gibbs free energy)
d. Equilibrium constant value change if you change the _________________________ and ________________.
e. Define Equilibrium positions: __________________________________________________________________
f. At equilibrium, do you have more reactants or products if the K = 1000. ______________________
g. Write the equilibrium constant expression for the following chemical reaction:
2KClO3(s) --> 2 KCl(s) + 3 O2 (g)
h. From your notes, what are the 3 important concepts in Equilibrium?
1)
2)
3)
ia. Define LeChatelier's Principle:
ib. What 2 additional pieces of information (not part of definition) do you need to understand this concept?
1)
2)
j. For the chemical reaction,
2 NO(g) + 1 O2(g) <==> 2 NO2(g) + Energy
Stress: Decreasing temperature (______________________)
How rxn tries to remove stress: _________________________________________________
Circle: Make more product or more reactant (fill in for pressure changes)__________________
Circle: Favoring: Forward rxn or Backward rxn: (fill in for temperature changes) _____________
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
k. For the chemical reaction: 2 H2S(g) <--> 2 H2(g) + S2(g)
Stress:Increasing pressure (______________________)
How rxn tries to remove stress: _________________________________________________
Circle: Make more product or more reactant (fill in for pressure changes)__________________
Circle: Favoring: Forward rxn or Backward rxn: (fill in for temperature changes) _____________
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
l. For the following chemical reaction in the LeChatlier's Principle Lab,:
(yellow) 2 CrO42- + 2 H3O+ <==> Cr2O72- + H2O (orange)
Stress: Adding in NaOH (_______________________________________________________________)
How rxn tries to remove stress: _________________________________________________
Circle: Make more product or more reactant (fill in for pressure changes)__________________
Circle: Favoring: Forward rxn or Backward rxn: (fill in for temperature changes) _____________
Circle: Shift Equilibrium to: Left(more reactant) or Right (more product)
Solution turned: More Yellow or More Orange or No change
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m. At 300.degC, the following chemical reaction reaches equilibrium in a 2.50L container.
3 H2(g) + 1 N2(g) <==> 2NH3(g)
At equilibrium, there are 3.25moles N2, 2.75mole H2, and 4.25moles NH3. What is the equilibrium constant (K) and what are its units. (Hint, make sure sure you write down equilibrium constant expression first)
n. At 25.0deg C, the following chemical reaction occurs in a 0.500L container and has a K=0.0450.
2 H2(g) + 1 O2(g) <==> 2 H2O(g)
At equilibrium, there are 1.49moles H2 and 3.45moles O2. What is the equilibrium concentration of h2O?
(Hint, make sure sure you write down equilibrium constant expression first)
o. For reaction 2 SO2(g) + O2(g) <--> 2 SO3(g)
a 1.00-L container initially has 3.50 moles of SO2 and 2.00mole O2. If 1.30moles of O2 react to reach equilibrium, what are the equilibrium concentrations of all species and then calculated K (equilibrium constant). Include units of K? 2015-2016 DO NOT DO THIS PROBLEM
Answer:
k. K=1.67M-2
L. [H2O]E = 1.66M
m. [SO2]E = 0.900M, [O2]E = 0.700M, [SO3]E = 2.60M, K=11.9M-1