When beryllium-7 ions (m = 1.165 10-26 kg) pass through a mass spectrometer, a uniform magnetic field of 0.3479 T curves their path directly to the center of the detector (see figure below). For the same accelerating potential difference, what magnetic field should be used to send beryllium-10 ions (m = 1.663 10-26 kg) to the same location in the detector? Both types of ions are singly ionized (q = +e)
When beryllium-7 ions (m = 1.165 10-26 kg) pass through a mass spectrometer, a uniform magnetic field of 0.3479 T curves their path directly to the center of the detector (see figure below). For the same accelerating potential difference, what magnetic field should be used to send beryllium-10 ions (m = 1.663 10-26 kg) to the same location in the detector? Both types of ions are singly ionized (q = +e)
University Physics Volume 3
17th Edition
ISBN:9781938168185
Author:William Moebs, Jeff Sanny
Publisher:William Moebs, Jeff Sanny
Chapter7: Quantum Mechanics
Section: Chapter Questions
Problem 32P: A velocity measurement of an a-particle has been performed with a precision of 0.02 mm/s. What is...
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When beryllium-7 ions (m = 1.165 10-26 kg) pass through a mass spectrometer, a uniform magnetic field of 0.3479 T curves their path directly to the center of the detector (see figure below). For the same accelerating potential difference, what magnetic field should be used to send beryllium-10 ions (m = 1.663 10-26 kg) to the same location in the detector? Both types of ions are singly ionized (q = +e)
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