1. An electron is moving in a straight line with a speed of 3 x 107 m/s. Determine the magnetic field (Magnitude and direction) that occurs due to the electron at point P as in the picture! 40 mm 30 mm

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1. An electron is moving in a straight line with a speed of 3 x 107 m/s. Determine the magnetic field
(Magnitude and direction) that occurs due to the electron at point P as in the picture!
40 mm
Por
30 mm
2. The figure below shows a metal plate with a width of w = 2 cm and a thickness of t = 0.1 cm. An
electric current I = 20A is applied to it and placed in a magnetic field B in the direction shown in
the figure. When the applied magnetic field is 2 tesla, the resulting Hall voltage
of 4.28 V. Based on the above, determine the electron drift velocity (Vd)!
Transcribed Image Text:1. An electron is moving in a straight line with a speed of 3 x 107 m/s. Determine the magnetic field (Magnitude and direction) that occurs due to the electron at point P as in the picture! 40 mm Por 30 mm 2. The figure below shows a metal plate with a width of w = 2 cm and a thickness of t = 0.1 cm. An electric current I = 20A is applied to it and placed in a magnetic field B in the direction shown in the figure. When the applied magnetic field is 2 tesla, the resulting Hall voltage of 4.28 V. Based on the above, determine the electron drift velocity (Vd)!
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