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2 January, 20:31

Calculate the change in entropy if Br2 (l) is converted into gaseous Br atoms.

S° for Br2 (l) = 152.2 J / (mol•K)

S° for Br2 (g) = 245.5 J / (mol•K)

S° for Br (g) = 175.0 J / (mol•K)

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  1. 2 January, 20:44
    0
    197.8 J/mol

    Explanation:

    The conversion will happen in steps. First, the Br₂ (l) will be converted to Br₂ (g), and then to Br atoms. Thus, the change in entropy will be the sum of the change in entropy of the two steps.

    Step 1

    Br₂ (l) → Br₂ (g)

    ΔS = ∑n*S°products - ∑n*S°reactants, where n is the stoichiometric coefficient

    ΔS = 245.5 - 152.2 = 93.3 J/K

    Step 2

    Br₂ (g) → 2Br (g)

    ΔS = (2*175.0) - 245.5 = 104.5 J/mol

    Thus, the total change in entropy is

    ΔS = 93.3 + 104.5

    ΔS = 197.8 J/mol
  2. 2 January, 20:48
    0
    197.8 J / (mol•K).

    Explanation:

    ∆S° = [Σ bS° products] - [Σ aS° reactants], where b and a are the coefficients of the products and the reactants in the balanced reaction equation.

    Br₂ (l) ⟶ 2 Br (g)

    ∴ ∆S° = [2 x S° Br (g) ] - [S° Br₂ (l) ]

    ∴ ∆S° = [ (2) (175.0 J / (mol•K) ] - [152.2 J / (mol•K) ] = 197.8 J / (mol•K).
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