A 0.0100~\text{kg}0.0100 kg particle that carries a net charge is in between two large conducting plates such that the e
Posted: Thu Apr 28, 2022 8:46 am
A 0.0100~\text{kg}0.0100 kg particle that carries a net charge
is in between two large conducting plates such that the electric
field it experiences is uniform. It moves from point AA to point BB
such that the potential difference between the two points is
-925~\text{V}−925 V. When it reached point BB it is moving at
16.0~\text{m/s}16.0 m/s.
a. What is the magnitude of the net charge, in Coulombs,
that the particle has? [Write your answer
in decimal form and indicate
the correct sign.]
b. If the same phenomenon happens to the particle
but the electric field is now three times as great, how fast, in
meters per second, will the particle would have been at
point BB?
is in between two large conducting plates such that the electric
field it experiences is uniform. It moves from point AA to point BB
such that the potential difference between the two points is
-925~\text{V}−925 V. When it reached point BB it is moving at
16.0~\text{m/s}16.0 m/s.
a. What is the magnitude of the net charge, in Coulombs,
that the particle has? [Write your answer
in decimal form and indicate
the correct sign.]
b. If the same phenomenon happens to the particle
but the electric field is now three times as great, how fast, in
meters per second, will the particle would have been at
point BB?