In a Bainbridge mass spectrometer (figure below), ions are passed through an electromagnetic field (B₁, E) of a velocity selector, then deviated in a magnetic field only of magnitude B₂. Given that E = 3 x 105 V/m and B₁ = . B₂ = 0.4 T, calculate the difference in position on the photographic plate (detector) for carbon isotopes of mass 12 u and 14 u, both ionized with charge q = e. -11}{2 m₁ m₂ m3 | | E B, - S₁ S₂ ,В,
In a Bainbridge mass spectrometer (figure below), ions are passed through an electromagnetic field (B₁, E) of a velocity selector, then deviated in a magnetic field only of magnitude B₂. Given that E = 3 x 105 V/m and B₁ = . B₂ = 0.4 T, calculate the difference in position on the photographic plate (detector) for carbon isotopes of mass 12 u and 14 u, both ionized with charge q = e. -11}{2 m₁ m₂ m3 | | E B, - S₁ S₂ ,В,
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Transcribed Image Text:In a Bainbridge mass spectrometer (figure below), ions are passed through
an electromagnetic field (B₁, E) of a velocity selector, then deviated in a magnetic field
only of magnitude B₂. Given that E = 3 × 105 V/m and B₁ = B₂ = 0.4 T, calculate
he difference in position on the photographic plate (detector) for carbon isotopes of
mass 12 u and 14 u, both ionized with charge q = e.
-112
V
m₁ m₂ m3
E
—
S₁
S₂
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