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Testing

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Dynamic Reactions at eq never stop ... Blue Bottle Demo. 5 grams KOH. 3 grams Dextrose. 250 mL of water. 1 drop methylene blue ... – PowerPoint PPT presentation

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Title: Testing


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Definition
  • Class Demo with hall
  • Chemical Equilibrium when the rate of the
    forward and reverse reactions are equal
  • Dynamic Reactions at eq never stop
  • Equilibrium DOES NOT mean that the amount of
    reactants and products are equal. They have
    reached an unchanging ratio

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Definition
  • NaCl (s) ? Na(aq) Cl-(aq)
  • (stress all three species are present)
  • 2. N2O4(g) ? 2NO2(g)
  • Clear Brown
  • Cold Hot

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Graphs
  • Starting with all reactants (N2O4)
  • N2O4(g) ? 2NO2(g)
  • 2. Starting with all products (NO2)

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Eq. Constants
  • Kc Eq. Constant involving molarity
  • a. Molarity
  • b. Example 0.50 M
  • 2. Kp Eq. Constant involving pressure
  • a. Atmospheres
  • b. We live at about 1 atm
  • Generic Example
  • aA bB ? cC dD

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Eq. Constants
  • 2O3(g) ? 3O2(g)
  • 2NO(g) Cl2(g) ? 2NOCl(g)
  • H2(g) I2(g) ? 2HI(g)

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Heterogeneous Eq.
  • Def When more than one state is present in an
    equilibrium
  • Rule Always exclude solids and liquids from K.
    They are not considered to have a molarity or
    pressure.

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Heterogeneous Eq.
  • SnO2(s) 2CO(g) ? Sn(s) 2CO2(g)
  • Pb(NO3)2(aq)Na2SO4(aq)?PbSO4(s)
  • 2NaNO3(aq)
  • Ba2(aq) SO42-(aq) ? BaSO4(s)

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A Note About Water
  • Exclude liquid water (often the solvent)
  • Keep gaseous water
  • Examples
  • CO2(g) H2(g) ? CO(g) H2O(l)
  • 3Fe(s) 4H2O(g) ? Fe3O4(s) 4H2(g)

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  • An example
  • CO(g) Cl2(g) ? COCl2(g)
  • Kc 4.6 X 109
  • Rules
  • Kgtgt1 Favors the products
  • Kltlt1 Favors the reactants
  • K1 Reactants Products

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  • Does the following reaction favor the products or
    reactants?
  • N2(g) O2(g) ? 2NO(g)
  • Kc 1 X 10-30
  • For the following reaction, Kc 794 at 298 K and
    Kc 54 at 700 K. Should you heat or cool the
    mixture to promote the formation of HI?
  • H2(g) I2(g) ? 2HI(g)

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  • If Kc 2.5 X 10-30 for N2(g) O2(g) ? 2NO(g)
    what is Kc for
  • 2NO(g) ? N2(g) O2(g)
  • What is Kc for
  • ½ N2(g) ½ O2(g) ? NO(g)
  • 3. If the Kc for N2(g) 3H2(g) ? 2NH3(g) is
    4.43 X10-3, what is Kc for
  • 2N2(g) 6H2(g) ? 4NH3(g)

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  • A mixture is allowed to reach eq.. At eq., the
    vessel contained 0.1207 M H2, 0.0402 M N2, and
    0.00272 M NH3. What is the equilibrium constant?
  • N2(g) 3H2(g) ? 2NH3(g)
  • (Ans 0.105)

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  • 2. At eq., a vessel contained 0.00106 M NO2Cl,
    0.0108 M NO2, and 0.00538 M Cl2. What is the
    equilibrium constant?
  • NO2Cl(g) ? NO2(g) Cl2(g)
  • (Ans 0.558)

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  • 3. A mixture of 0.00500 mol of H2 and 0.0100
    mol of I2 is placed in a 5.00 L flask and allowed
    to reach eq.. At eq., the mixture is found to be
    HI 0.00187 M. Calculate Kc.
  • H2(g) I2(g) ? HI(g)
  • (Ans 51)

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  • 4. A vessel is charged with 0.00609 M SO3. At
    eq., the SO3 concentration had dropped to 0.00244
    M SO3. What is the value of Kc?
  • SO3(g) ? SO2(g) O2(g)
  • (Ans 0.0041)

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  • 5. 4.00 mol of HI was placed in a 5.00 L flask
    and allowed to decompose. At eq. It was found
    that the vessel contained 0.442 mol of I2. What
    is the value of Kc?
  • HI(g) ? H2(g) I2(g)
  • (Ans 0.020)

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  • An eq. mixture of gases is analyzed. The partial
    pressure of nitrogen is 0.432 atm and the partial
    pressure of hydrogen is 0.928 atm. If Kp is 1.45
    X 10-5, what is the partial pressure of ammonia?
  • N2(g) 3H2(g) ? 2NH3(g)

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  • At equilibrium, the partial pressure of PCl5 and
    PCl3 are measured to be 0.860 atm and 0.350 atm,
    respectively. If Kp 0.497, what is the partial
    pressure of Cl2?
  • PCl5(g) ?? PCl3(g) Cl2(g)

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  • 0 ax2 bx c
  • x -b \/ b2 4ac
  • 2a
  • 2x2 4x 1

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  • 1. A gas cylinder is charged with 1.66 atm of
    PCl5 and allowed to reach eq.. If the Kp 0.497,
    what are the pressures of all the gases at
    equilibrium?
  • PCl5(g) ? PCl3(g) Cl2(g)
  • (Ans 0.97 atm, 0.693 atm)
  • (briefly discuss partial pressures)

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  • 2. A 1.000 L flask is filled with 1.000 mol of
    H2 and 2.000 mol of I2. The Kc 50.5. What are
    the concentrations of all the gases at
    equilibrium?
  • H2(g) I2(g) ? 2HI(g)
  • (Ans 0.065 M, 1.065 M, 1.87 M)

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Q Reaction Quotient
  • Reaction Quotient
  • Calculated the same as K, but using initial
    concentrations
  • 3. Q lt K shifts to products
  • Q K at equilibrium
  • Q gt K shifts to reactants

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Q Reaction Quotient
  • If you introduce 0.0200 mol of HI, 0.0100 mol of
    H2 and 0.0300 mol of I2 in a 2.00 L flask, which
    way will the reaction proceed to reach
    equilibrium?
  • H2(g) I2(g) ? 2HI(g) Kc 51
  • (Ans Q 1.3)

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Q Reaction Quotient
  • 2. Predict which way the following reaction
    will proceed as it reaches eq. Assume that you
    start with SO3 0.002 M, SO2 0.005 M and
    O2 0.03M.
  • 2SO3(g) ? 2SO2(g) O2(g)
  • Kc 0.0041
  • (Ans Q 0.2)

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Q Reaction Quotient
  • Predict which way the following reaction will
    proceed as it reaches eq. Assume that you start
    with NH3 0.002 M, N2 0.005 M and no H2.
    Kc 0.105
  • N2(g) 3H2(g) ? 2NH3(g)

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LeChateliers Principle
  • Blue Bottle Demo
  • 5 grams KOH
  • 3 grams Dextrose
  • 250 mL of water
  • 1 drop methylene blue

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LeChateliers Principle
If a system at eq. is disturbed, it will shift to
relieve that disturbance
  • Definition If a system at eq. Is disturbed, it
    will shift to relieve that disturbance

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  • N2(g) 3H2(g) ? 2NH3(g)
  • Add N2
  • Add NH3
  • Remove NH3 as it forms
  • Remove H2
  • N.B. Does NOT apply to solids and liquids. They
    do not appear in the K.
  • LiCl(s) ? Li(aq) Cl-(aq)

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  • N2(g) 3H2(g) ? 2NH3(g)
  • Identify the of moles of gas on either side.
  • Show piston drawing
  • Increase the volume of the container
  • Decrease the volume of the container

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  • N2(g) 3H2(g) ? 2NH3(g)
  • Increase the pressure of the system
  • Decrease the pressure of the system
  • Soda example (CO2(aq) ? CO2(g))
  • N.B. Adding a noble or inert gas has no effect
    on the eq. Pressure change without a volume
    change.

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  • Endothermic Reactions absorb heat from the
    surroundings
  • Heat is added (reactants)
  • Cooking is an example
  • DH
  • Exothermic Reactions Release heat
  • Give off heat (products)
  • Fire is an example
  • DH -

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  • CO(g) 3H2(g) ? CH4(g) H2O(g)
  • DH -206 kJ/mol
  • Heat the system
  • Cool the system

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  • Catalyst
  • Examples
  • a. Enzymes
  • b. Vitamins
  • c. Catalytic convertor
  • 3. No effect on the position of equilibrium

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  • Example 1
  • N2O4(g) ? 2NO2(g)
  • DH 58 kJ/mol
  • Add N2O4
  • Remove NO2 as it forms
  • Increase the total pressure
  • Increase the total volume
  • Cool the solution
  • Add a catalyst

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  • Example 2.
  • 2PbS(s) 3O2(g) ? 2PbO(s) 2SO2(g)
  • DH -37 kJ/mol
  • Add PbS
  • Remove SO2 as it forms
  • Add O2
  • Increase volume
  • Decrease the pressure
  • Heat the flask

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  • Example 3.
  • Given the following eqn., how could you promote
    the formation of PCl3 and Cl2?
  • PCl5(g) ? PCl3(g) Cl2(g)
  • DH 88 kJ/mol

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  • Example 4.
  • How could you promote the formation of CH4?
  • CO(g) 3H2(g) ? CH4(g) H2O(g)
  • DH -206 kJ/mol

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  • HC2H3O2(aq) H2O(l) ? H3O(aq)
    C2H3O2-(aq)

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  • Fe3(aq) SCN-(aq) ? FeSCN2(aq)

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  • Co(H2O)62(aq) 4Cl-(aq) 50 kJ/mol
    ? CoCl42-(aq) 6H2O(l)
  • (pink) (blue)

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  • NaCl(s) ? Na(aq) Cl-(aq)

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  • 20a) 1.35 X 105 b) H2S favored
  • 22a) 13.3 b) 0.274 c) 0.0349
  • Skip (9.5 X 10-31)
  • 26) Kp 1/PSO2
  • Na2O is a solid, no molarity or pressure
  • Kc 10.5
  • 30) 66.8, Products favored

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  • 0.0535 atm
  • 42a. 0.0362 g I2 b) 0.018 g SO2
  • 0.13 M
  • 46. 0.011 M
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