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13 November, 23:50

Atomic hydrogen produces well-known series of spectral lines in several regions of the electromagnetic spectrum. Each series fits the Rydberg equation with its own particular n₁ value. Calculate the value of n₁ (by trial and error if necessary) that would produce a series of lines in which:

(a) The highest energy line has a wavelength of 3282 nm.

(b) The lowest energy line has a wavelength of 7460 nm.

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  1. 14 November, 00:11
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    Answer: a) The value of n₁ that would produce a series of lines in which the highest energy line has a wavelength of 3282 nm is 6.

    b) The value of n₁ that would produce a series of lines in which the lowest energy line has a wavelength of 7460 nm is 5.

    Explanation:

    The formula that relates wavelength of emissions to Rydberg's constant and the n₁ values is

    (1/λ) = R ((1 / (n₁^2)) - (1 / (n2^2))

    Where λ = wavelength, R = (10.972 * 10^6) / m, n2 = ∞ (since they're emitted out of the atom already)

    a) n₁ = ?

    λ = 3282 nm = (3.282 * 10^-6) m

    (1 / (3.282 * 10^-6)) = (10.972 * 10^6) ((1 / (n₁^2) (since 1/∞ = 0)

    n₁^2 = (3.282 * 10^-6) * (10.972 * 10^6) = 36

    n₁ = 6.

    The value of n₁ that would produce a series of lines in which the highest energy line has a wavelength of 3282 nm is 6.

    b) n₁ = ?

    λ = 7460 nm = (7.46 * 10^-6) m

    (1 / (7.46 * 10^-6)) = (10.972 * 10^6) ((1 / (n₁^2)) - (1 / (n2^2)) for lowest energy line, n2 = n₁ + 1

    (n₁^2) ((n₁+1) ^2)) / (2n₁+1) = (7.46 * 10^-6) * (10.972 * 10^6) = 81.85

    (n₁^2) ((n₁+1) ^2)) / (2n₁+1) = 81.85

    Solving the quadratic eqn,

    n₁ = 5.

    The value of n₁ that would produce a series of lines in which the lowest energy line has a wavelength of 7460 nm is 5.

    QED!
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