A particle that carries a net charge of -77.8 µC is held in a constant electric field that is uniform over the entire region. The electric field vector is oriented 40.2" clockwise from the vertical axis, as shown in the figure. If the magnitude of the electric field is 7.82 N/C, how much work is done by the electric field as the particle is made to move a distance of d = 0.356 m straight up? work: What is the potential difference AV between the particle's initial and final positions? AV =

A particle that carries a net charge of -77.8 µC is held in a constant electric field that is uniform over the entire region. The electric field vector is oriented 40.2" clockwise from the vertical axis, as shown in the figure. If the magnitude of the electric field is 7.82 N/C, how much work is done by the electric field as the particle is made to move a distance of d = 0.356 m straight up? work: What is the potential difference AV between the particle's initial and final positions? AV =

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A particle that carries a net charge of -77.8 µC is held in a
constant electric field that is uniform over the entire region.
The electric field vector is oriented 40.2 clockwise from the
vertical axis, as shown in the figure. If the magnitude of the
electric field is 7.82 N/C, how much work is done by the
electric field as the particle is made to move a distance of
d = 0.356 m straight up?
work:
What is the potential difference AV between the particle's
initial and final positions?
AV =
40.2

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