184_projects:sorting_hawkions

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184_projects:sorting_hawkions [2023/04/10 18:48] dmcpadden184_projects:sorting_hawkions [2023/11/08 18:12] (current) dmcpadden
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 ==== Project: Sorting Hawkions ==== ==== Project: Sorting Hawkions ====
-Since your team was so successful at creating the magnetic field detector for the Hawkions, the Lakeviewians have now hired you to analyze other characteristics of the Hawkions. The Hawkions appear to have a variety of masses, so you start by trying to sort the Hawkions by mass for further analysis (using a mass spectrometer). Before building the spectrometer, your team is asked to develop a model of the spectrometer. The higher ups have specified that they would like to use a constant magnetic field of 2 T and to isolate the effects of the B-field within the magnetic housing box, but they are unsure what direction the magnetic field should be relative to the catching plate. Below is the beginning of a model that was developed by another team that mysteriously disappeared.+Since your team was so successful at creating the magnetic field detector, the Lakeviewians have now hired you to analyze other characteristics of the mystery particles. The particles appear to have a variety of masses, so you start by trying to sort the particles by mass for further analysis (using a mass spectrometer). Before building the spectrometer, your team is asked to develop a model of the spectrometer. The higher ups have specified that they would like to use a constant magnetic field of 2 T and to isolate the effects of the B-field within the magnetic housing box, but they are unsure what direction the magnetic field should be relative to the catching plate. Below is the beginning of a model that was developed by another team that mysteriously disappeared.
  
 <code python> <code python>
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   - Suppose you had two particles that were different isotopes of carbon. One particle is a Carbon-12 atom that is singly ionized, and the other particle is a Carbon-14 atom that has been singly ionized. If both particles are sent through a slot with a speed of 56.3 m/s into a 3 T magnetic field  (shown below), where would they land?   - Suppose you had two particles that were different isotopes of carbon. One particle is a Carbon-12 atom that is singly ionized, and the other particle is a Carbon-14 atom that has been singly ionized. If both particles are sent through a slot with a speed of 56.3 m/s into a 3 T magnetic field  (shown below), where would they land?
  
-[{{  184_notes:img_3396.jpg?600  }}]+{{  184_notes:img_3396.jpg?600  }}
  
  
  
  • 184_projects/sorting_hawkions.txt
  • Last modified: 2023/11/08 18:12
  • by dmcpadden