The velocity selector in the problem prior to this one is used in a mass spectrometer. Protons (with zero neutrons) are the most common hydrogen nuclei. Some hydrogen isotopes, however, have either one or two neutrons in addition to the proton. If a beam of hydrogen nuclei is shot into a magnetic field of strength 2.0T and the nuclei do a u-turn after which they strike a detector, how far apart will the three isotopes be on the detector surface? Assume both protons and neutrons have a mass of 1.67 × 10−27kg and e = 1.60 × 10−19C.
The velocity selector in the problem prior to this one is used in a mass spectrometer. Protons (with zero neutrons) are the most common hydrogen nuclei. Some hydrogen isotopes, however, have either one or two neutrons in addition to the proton. If a beam of hydrogen nuclei is shot into a magnetic field of strength 2.0T and the nuclei do a u-turn after which they strike a detector, how far apart will the three isotopes be on the detector surface? Assume both protons and neutrons have a mass of 1.67 × 10−27kg and e = 1.60 × 10−19C.
Chapter11: Magnetic Forces And Fields
Section: Chapter Questions
Problem 63AP: An electron of kinetic energy 2000 eV passes between parallel plates that are 1.0 an apart and kept...
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The velocity selector in the problem prior to this one is used in a mass spectrometer. Protons
(with zero neutrons) are the most common hydrogen nuclei. Some hydrogen isotopes, however, have
either one or two neutrons in addition to the proton. If a beam of hydrogen nuclei is shot into a
magnetic field of strength 2.0T and the nuclei do a u-turn after which they strike a detector, how far
apart will the three isotopes be on the detector surface? Assume both protons and neutrons have a
mass of 1.67 × 10−27kg and e = 1.60 × 10−19C.
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