During surgery, anesthesiolgists uses a mass spectrometer to monitor the respiratory gases of a patient. A gas often monitored is Isoflurane (molar mass = 3.06 ×10-25kg). A singly ionized molecules of isoflurane has a charge if +e and moves at a speed of 7.5×103 m/s. If the path in which it travels is considered circular with a radius of 0.10 m then: Calculate the magnitude of the magnetic field that the spectrometer uses. If, and in a hypothetical case, a secondary reaction occurs creating a second particle which is negatively charged, twice the mass of the isoflurane and travels at 1.8 ×103 m/s. What is the radius of its circular path? Draw how the paths of these two molecules are affected under the influence of the magnetic force.
During surgery, anesthesiolgists uses a mass spectrometer to monitor the respiratory gases of a patient. A gas often monitored is Isoflurane (molar mass = 3.06 ×10-25kg). A singly ionized molecules of isoflurane has a charge if +e and moves at a speed of 7.5×103 m/s. If the path in which it travels is considered circular with a radius of 0.10 m then: Calculate the magnitude of the magnetic field that the spectrometer uses. If, and in a hypothetical case, a secondary reaction occurs creating a second particle which is negatively charged, twice the mass of the isoflurane and travels at 1.8 ×103 m/s. What is the radius of its circular path? Draw how the paths of these two molecules are affected under the influence of the magnetic force.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Question
During surgery, anesthesiolgists uses a mass spectrometer to monitor the respiratory gases of a patient. A gas often monitored is Isoflurane (molar mass = 3.06 ×10-25kg). A singly ionized molecules of isoflurane has a charge if +e and moves at a speed of 7.5×103 m/s. If the path in which it travels is considered circular with a radius of 0.10 m then:
- Calculate the magnitude of the magnetic field that the spectrometer uses.
- If, and in a hypothetical case, a secondary reaction occurs creating a second particle which is negatively charged, twice the mass of the isoflurane and travels at 1.8 ×103 m/s. What is the radius of its circular path?
- Draw how the paths of these two molecules are affected under the influence of the magnetic force.
Expert Solution
Step 1
Given:
For Isoflurane,
molar mass (m) = 3.06 ×10-25kg
Charge = +e = 1.6 ×10-19 C
speed (v) = 7.5 ×103 m/s
Radius (r) = 0.1 m
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