b) Singly-ionised atoms accelerated by a 20 kV potential enter a region with a magnetic field at right angles to the ion beam. The ion beam is deflected, so that after travelling 20 cm in the magnetic field atoms of a selected mass exit through a slit at right-angles to the input beam. Calculate the magnetic field required to select carbon-12 atoms.
b) Singly-ionised atoms accelerated by a 20 kV potential enter a region with a magnetic field at right angles to the ion beam. The ion beam is deflected, so that after travelling 20 cm in the magnetic field atoms of a selected mass exit through a slit at right-angles to the input beam. Calculate the magnetic field required to select carbon-12 atoms.
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![b) Singly-ionised atoms accelerated by a 20 kV potential enter a region with a magnetic field
at right angles to the ion beam. The ion beam is deflected, so that after travelling 20 cm in
the magnetic field atoms of a selected mass exit through a slit at right-angles to the input
beam. Calculate the magnetic field required to select carbon-12 atoms.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6bf40489-44d8-42e2-9a2a-20b43cddd7e4%2Fc283986f-8909-4f36-882e-1cd2602aa54e%2Fq933imd_processed.png&w=3840&q=75)
Transcribed Image Text:b) Singly-ionised atoms accelerated by a 20 kV potential enter a region with a magnetic field
at right angles to the ion beam. The ion beam is deflected, so that after travelling 20 cm in
the magnetic field atoms of a selected mass exit through a slit at right-angles to the input
beam. Calculate the magnetic field required to select carbon-12 atoms.
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