The figure shows a prism-shaped object that is 40.0 cm high, 30.0 cm deep, and 80.0 cm long. The prism is immersed in a uniform electric field of 600 N/C directed parallel to the x-axis. Calculate the electric flux O, out of Surface I (the back surface). Calculate the electric flux ou out of Surface II (the bottom surface). $11 = Surface I Surface III d Surface IV -Surface V Surface II N-m²/C N-m²/C

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The figure shows a prism-shaped object that is 40.0 cm high,
30.0 cm deep, and 80.0 cm long. The prism is immersed in a
uniform electric field of 600 N/C directed parallel to the x-axis.
Calculate the electric flux O, out of Surface I (the
back surface).
Calculate the electric flux ou out of Surface II (the
bottom surface).
$11
=
Surface I
Surface III
Surface IV
Surface V
Surface II
d
N-m²/C
Question Source: Freedman College Physics 3e Publisher: Macmillan
N-m²/C
Transcribed Image Text:The figure shows a prism-shaped object that is 40.0 cm high, 30.0 cm deep, and 80.0 cm long. The prism is immersed in a uniform electric field of 600 N/C directed parallel to the x-axis. Calculate the electric flux O, out of Surface I (the back surface). Calculate the electric flux ou out of Surface II (the bottom surface). $11 = Surface I Surface III Surface IV Surface V Surface II d N-m²/C Question Source: Freedman College Physics 3e Publisher: Macmillan N-m²/C
Calculate the electric flux Pm out of Surface III (the left end).
Calculate the electric flux Oy out of Surface IV (the
right end).
Calculate the electric flux Oy out of Surface V (the
front surface).
Calculate the net electric flux out of the entire
closed surface.
If in addition to the given electric field the prism also
enclosed a point charge of -2.00 μC, how would
If in addition to the given electric field the prism also
enclosed a point charge of -2.00 μC, how would
your answers above change qualitatively, if at all?
The electric flux out of each surface would increase.
The electric flux out of each surface would decrease.
The electric flux through each surface would
not change.
PH
==
11
4y =
N-m²/C
N-m²/C
N-m²/C
Nm²/C
Question Source: Freedman College Physics Publisher Macmillan
Transcribed Image Text:Calculate the electric flux Pm out of Surface III (the left end). Calculate the electric flux Oy out of Surface IV (the right end). Calculate the electric flux Oy out of Surface V (the front surface). Calculate the net electric flux out of the entire closed surface. If in addition to the given electric field the prism also enclosed a point charge of -2.00 μC, how would If in addition to the given electric field the prism also enclosed a point charge of -2.00 μC, how would your answers above change qualitatively, if at all? The electric flux out of each surface would increase. The electric flux out of each surface would decrease. The electric flux through each surface would not change. PH == 11 4y = N-m²/C N-m²/C N-m²/C Nm²/C Question Source: Freedman College Physics Publisher Macmillan
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