6. An electrone and a proton p are simultaneously released from rest in a uniform electric field ɛ, as shown. Assume that the particles are sufficiently far apart so that the only force acting on each particle after it is released is that due to the electric field. At a later time when the particles are still in the field, the electron and the proton will have the same a. direction of motion b. speed c. displacement d. magnitude of acceleration e. magnitude of force acting on them દ
6. An electrone and a proton p are simultaneously released from rest in a uniform electric field ɛ, as shown. Assume that the particles are sufficiently far apart so that the only force acting on each particle after it is released is that due to the electric field. At a later time when the particles are still in the field, the electron and the proton will have the same a. direction of motion b. speed c. displacement d. magnitude of acceleration e. magnitude of force acting on them દ
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Transcribed Image Text:6. An electron e and a proton p are simultaneously released
from rest in a uniform electric field ɛ, as shown. Assume
that the particles are sufficiently far apart so that the only
force acting on each particle after it is released is that due
to the electric field. At a later time when the particles are
still in the field, the electron and the proton will have the
same
a. direction of motion
b. speed
c. displacement
d. magnitude of acceleration
e. magnitude of force acting on them
E
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