a) An electron with a speed of 8 x 106 [m/s] is projected along the positive x direction into a medium containing a uniform magnetic flux density B = (x4 – 26)[T]. Given that the charge of an electron e = 1.6 × 10-19 [C] and the mass m, = 9.1 × 10-31 [kg], determine the initial acceleration vector of the electron (at the moment it is projected into the medium). Given that the acceleration vector of a free particle is the net force vector divided by the particle mass.

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a) An electron with a speed of 8 x 106 [m/s] is projected along the positive x
direction into a medium containing a uniform magnetic flux density
B = (x4 – 26)[T]. Given that the charge of an electron e = 1.6 × 10-19 [C] and
the mass m, = 9.1 × 10-31 [kg], determine the initial acceleration vector of the
electron (at the moment it is projected into the medium). Given that the acceleration
vector of a free particle is the net force vector divided by the particle mass.
Transcribed Image Text:a) An electron with a speed of 8 x 106 [m/s] is projected along the positive x direction into a medium containing a uniform magnetic flux density B = (x4 – 26)[T]. Given that the charge of an electron e = 1.6 × 10-19 [C] and the mass m, = 9.1 × 10-31 [kg], determine the initial acceleration vector of the electron (at the moment it is projected into the medium). Given that the acceleration vector of a free particle is the net force vector divided by the particle mass.
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