It is desired to change the trajectory of a beam of electrons by passing the beam through a magnetic field as shown in the diagram, wherer = 5. The electrons enter the magnetic field at A and leave the magnetic field at B. Region of A magnetic 꺼 feld Er-B

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Include a diagram. Include a short sentence, a phrase, or a few words describing the principle(s) used in your solution.
Beams of electrons can be steered using magnets.
It is desired to change the trajectory of a beam of electrons by passing the beam through a magnetic field as shown in the diagram, where r = 5.17 cm.
The electrons enter the magnetic field at A and leave the magnetic field at B.
Region of
A
magnetic
꺼 feld
(a) Draw a diagram showing the path followed by the electrons while they are in the magnetic field, i.e. the path from A to B.
(b) The electrons have kinetic energies of 4.14 keV.
You may assume that the magnetic force is the only force acting on the electrons.
The mass of an electron is 9.11 x 10-31 kg.
Calculate the required magnetic field (magnitude and direction).
Which one of the following is the required direction of the magnetic field?
O toward the top of the page
to the left
O into the page
O toward the bottom of the page
O out of the page
O to the right
Required magnitude of magnetic field:
Transcribed Image Text:Beams of electrons can be steered using magnets. It is desired to change the trajectory of a beam of electrons by passing the beam through a magnetic field as shown in the diagram, where r = 5.17 cm. The electrons enter the magnetic field at A and leave the magnetic field at B. Region of A magnetic 꺼 feld (a) Draw a diagram showing the path followed by the electrons while they are in the magnetic field, i.e. the path from A to B. (b) The electrons have kinetic energies of 4.14 keV. You may assume that the magnetic force is the only force acting on the electrons. The mass of an electron is 9.11 x 10-31 kg. Calculate the required magnetic field (magnitude and direction). Which one of the following is the required direction of the magnetic field? O toward the top of the page to the left O into the page O toward the bottom of the page O out of the page O to the right Required magnitude of magnetic field:
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