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16 April, 18:10

The barium isotope 133Ba has a half-life of 10.5 years. A sample begins with 1.1*1010 133Ba atoms. How many are left after (a) 6 years, (b) 10 years, and (c) 200 years?

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  1. 16 April, 18:17
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    (a) 7.4 x 10⁹ atoms.

    (b)

    (c)

    Explanation:

    It is known that the decay of a radioactive isotope isotope obeys first order kinetics. Half-life time is the time needed for the reactants to be in its half concentration. If reactant has initial concentration [A₀], after half-life time its concentration will be ([A₀]/2). Also, it is clear that in first order decay the half-life time is independent of the initial concentration. The half-life of 133-Ba = 10.5 years.

    For, first order reactions:

    k = ln (2) / (t1/2) = 0.693 / (t1/2).

    Where, k is the rate constant of the reaction.

    t1/2 is the half-life of the reaction.

    ∴ k = 0.693 / (t1/2) = 0.693 / (10.5 years) = 0.066 year⁻¹.

    Also, we have the integral law of first order reaction:

    kt = ln ([A₀]/[A]),

    where, k is the rate constant of the reaction (k = 0.066 year⁻¹).

    t is the time of the reaction.

    [A₀] is the initial concentration of (133-Ba) ([A₀] = 1.1 x 10¹⁰ atoms).

    [A] is the remaining concentration of (133-Ba) ([A] = ? g).

    (a) 6 years:

    t = 6.0 years.

    ∵ kt = ln ([A₀]/[A])

    ∴ (0.066 year⁻¹) (6.0 year) = ln ((1.1 x 10¹⁰ atoms) / [A])

    ∴ 0.396 = ln ((1.1 x 10¹⁰ atoms) / [A]).

    Taking exponential for both sides:

    ∴ 1.486 = ((1.1 x 10¹⁰ atoms) / [A]).

    ∴ [A] = (1.1 x 10¹⁰ atoms) / (1.486) = 7.4 x 10⁹ atoms.

    (b) 10 years

    t = 10.0 years.:

    ∵ kt = ln ([A₀]/[A])

    ∴ (0.066 year⁻¹) (10.0 year) = ln ((1.1 x 10¹⁰ atoms) / [A])

    ∴ 0.66 = ln ((1.1 x 10¹⁰ atoms) / [A]).

    Taking exponential for both sides:

    ∴ 1.935 = ((1.1 x 10¹⁰ atoms) / [A]).

    ∴ [A] = (1.1 x 10¹⁰ atoms) / (1.935) = 5.685 x 10⁹ atoms.

    (c) 200 years:

    t = 200.0 years.

    ∵ kt = ln ([A₀]/[A])

    ∴ (0.066 year⁻¹) (200.0 year) = ln ((1.1 x 10¹⁰ atoms) / [A])

    ∴ 13.2 = ln ((1.1 x 10¹⁰ atoms) / [A]).

    Taking exponential for both sides:

    ∴ 5.4 x 10⁵ = ((1.1 x 10¹⁰ atoms) / [A]).

    ∴ [A] = (1.1 x 10¹⁰ atoms) / (5.4 x 10⁵) = 2.035 x 10⁴ atoms.
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