A mass spectrometer, similar to the one in the figure below, is designed to separate protein fragments. The fragments are ionized by removing a single electron, and they enter a 0.60 T uniform magnetic field at a speed of 2.8 x 105 m/s. all ions enter- here exit If an ionized protein fragment has a mass 95 times the mass of the proton, what will be the distance between the points where the ion enters and exits the magnetic field, shown as 2r in the figure? The mass of a proton is 1.67 x 1027 kg.

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A mass spectrometer, similar to the one in the figure below, is designed to separate protein fragments. The fragments are ionized
a speed of 2.8 x 105 m/s.
by removing a single electron, and they enter a 0.60 T uniform magnetic field
all ions
enter-
here
2r
exit
If an ionized protein fragment has a mass 95 times the mass of the proton, what will be the distance between the points where
the ion enters and exits the magnetic field, shown as 2r in the figure? The mass of a proton is 1.67 x 1027 kg.
m.
O Show My Work (Optional)
Transcribed Image Text:A mass spectrometer, similar to the one in the figure below, is designed to separate protein fragments. The fragments are ionized a speed of 2.8 x 105 m/s. by removing a single electron, and they enter a 0.60 T uniform magnetic field all ions enter- here 2r exit If an ionized protein fragment has a mass 95 times the mass of the proton, what will be the distance between the points where the ion enters and exits the magnetic field, shown as 2r in the figure? The mass of a proton is 1.67 x 1027 kg. m. O Show My Work (Optional)
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