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22 September, 23:33

There are two naturally occurring isotopes of boron determine the abundance of each isotope

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  1. 23 September, 02:13
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    Answer : The correct answer is:

    The abundance of isotopes can be found out using following formula:

    atomic mass of element = (abundance of isotope 1 * mass of isotope 1) + (abundance of isotope 2 * mass of isotope 2) + ...

    Boron (mass = 10.811 u) has two isotopes : ¹⁰B (mass = 10.0129 u) and ¹¹ B (mass = 11.0093 u)

    Sum of abundance of all isotopes = 100%

    Lets assume abundance of isotope ¹¹B = x % = 0.01 x, so abundance of isotope ¹⁰B = 100 % - x% = 100/100 - x/100 = 1 - 0.01 x

    Plugging values in formula:

    10.811 = (0.01 x * 11.0093) + [ (1 - 0.01 x) * 10.0129 ]

    10.811 = (0.110093 x) + (10.0129 - 0.100129 x)

    10.811 - 10.0129 = 0.110093 x - 0.100129 x

    0.7981 = 0.009964 x

    Dividing both side by 0.00964

    0.7981 / 0.009964 = 0.00964 / 0.00964 x

    x = 82.7 %

    Abundance of of isotope ¹¹ B = 82.7 %

    Abundance of isotope ¹⁰ B = 100% - x % = 100 % - 82.7 % = 17.3 %
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