A charged particle is entering a squared region of space with a uniform magnetic field. The sides of the region are 6 m wide. The particle enters the region exactly in the middle of one of the sides in a direction perpendicular to it, as in the Figure below. The charge of the particle is q = 20.0μC, its mass is m = 6.0 × 10-16 kg, and the velocity of the particle is || = 5 x 10³ m/s. How strong is the magnetic field so that the particle escapes such region in a direction perpendicular to the one it entered? See Figure for more details.
A charged particle is entering a squared region of space with a uniform magnetic field. The sides of the region are 6 m wide. The particle enters the region exactly in the middle of one of the sides in a direction perpendicular to it, as in the Figure below. The charge of the particle is q = 20.0μC, its mass is m = 6.0 × 10-16 kg, and the velocity of the particle is || = 5 x 10³ m/s. How strong is the magnetic field so that the particle escapes such region in a direction perpendicular to the one it entered? See Figure for more details.
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Transcribed Image Text:A charged particle is entering a squared region of space with a uniform magnetic field. The
sides of the region are 6 m wide. The particle enters the region exactly in the middle of one
of the sides in a direction perpendicular to it, as in the Figure below. The charge of the
particle is q = 20.0μC, its mass is m = 6.0 × 10-¹6 kg, and the velocity of the particle is
|v| = 5 × 10³ m/s. How strong is the magnetic field so that the particle escapes such
region in a direction perpendicular to the one it entered? See Figure for more details.
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