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Question

If the position of the electron is measured within an accuracy of + 0.002 nm, calculate the uncertainty in the momentum of the electron. Suppose the momentum of the electron is h/4πm × 0.05 nm, is there any problem in defining this value.

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Solution

From Heisenberg’s uncertainty principle,
x×p=h4πp=1x.h4π
Where,
∆x = uncertainty in position of the electron
∆p = uncertainty in momentum of the electron
Substituting the values in the expression of ∆p:
p=10.002nm×6.626×1034Js4×(3.14)=12×1012m×6.626×1034Js4×3.14=2.637×1023Jsm1p=2.637×1023kgms1(1J=1kgms2s1)
Uncertainty in the momentum of the electron = 2.637 × 1023 kgms1.
Actual momentum =h4πm×0.05nm=6.626×1034Js4×3.14×5.0×1011m=1.055×1024kgms1
Since the magnitude of the actual momentum is smaller than the uncertainty, the value cannot be defined.



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