© Macmillan Learning 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 700 N/C directed parallel to the x-axis. Calculate the electric flux D, out of Surface I (the back surface). Calculate the electric flux P₁ out of Surface II (the bottom surface). Calculate the electric flux D out of Surface III (the left end). $₁ = P₁ = Surface I -X Surface III -224 0 h 0 Surface II Surface IV Surface V N-m²/C N-m²/C N-m²/C
© Macmillan Learning 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 700 N/C directed parallel to the x-axis. Calculate the electric flux D, out of Surface I (the back surface). Calculate the electric flux P₁ out of Surface II (the bottom surface). Calculate the electric flux D out of Surface III (the left end). $₁ = P₁ = Surface I -X Surface III -224 0 h 0 Surface II Surface IV Surface V N-m²/C N-m²/C N-m²/C
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Question 9 of 15
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# 3
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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 700 N/C directed parallel to the x-axis.
D
>
Calculate the electric flux D, out of Surface I (the
back surface).
Calculate the electric flux D₁ out of Surface II (the
bottom surface).
C
83.3%
Calculate the electric flux P out of Surface III (the
left end).
Calculate the electric flux Dry out of Surface IV (the
right end).
ASA
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P₁ =
Div =
ФП = 0
-
Surface I
P = 0
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9
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Surface III
-224
-X
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-
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;
Surface II
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11
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Attempt 1
Surface IV
Surface V
N-m²/C
N-m²/C
N-m²/C
N-m²/C
}
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delete
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Transcribed Image Text:@
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Assignment Score:
Question 9 of 15
X
# 3
E
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 700 N/C directed parallel to the x-axis.
D
>
Calculate the electric flux D, out of Surface I (the
back surface).
Calculate the electric flux D₁ out of Surface II (the
bottom surface).
C
83.3%
Calculate the electric flux P out of Surface III (the
left end).
Calculate the electric flux Dry out of Surface IV (the
right end).
ASA
$
4
R
F
er s
%
5
V
F
T
G
^
6
B
MacBook Pro
Y
H
&
7
N
U
J
* 00
Resources
M
P₁ =
Div =
ФП = 0
-
Surface I
P = 0
K
(
9
Ex Give Up?
Surface III
-224
-X
0
O
<
h
I
)
0
L
d
P
>
.
Feedback
-
:
;
Surface II
{
[
?
+ 11
11
Resume
I
Attempt 1
Surface IV
Surface V
N-m²/C
N-m²/C
N-m²/C
N-m²/C
}
]
delete
K
return
shift
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Assignment Score: 83.3%
Question 9 of 15 >
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X
#3
Calculate the electric flux P out of Surface III (the
left end).
Calculate the electric flux Dy out of Surface IV (the
right end).
Calculate the electric flux py out of Surface V (the
front surface).
E
Calculate the net electric flux out of the entire
closed surface.
D
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.
O The electric flux through each surface would
not change.
C
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PII = 0
Φιν =
Dy =
M
Ф =
Incorrect
(
9
0
0
Incorrect
K
224
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Feedback
{
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Attempt 1
N-m²/C
N-m²/C
N-m²/C
N-m²/C
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delete
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shift](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8326ac45-d92e-48bb-9618-60d67c045ab6%2F96692750-216f-485e-948c-4cfc7182c114%2Fy991za_processed.jpeg&w=3840&q=75)
Transcribed Image Text:<
@
2
Assignment Score: 83.3%
Question 9 of 15 >
W
S
X
#3
Calculate the electric flux P out of Surface III (the
left end).
Calculate the electric flux Dy out of Surface IV (the
right end).
Calculate the electric flux py out of Surface V (the
front surface).
E
Calculate the net electric flux out of the entire
closed surface.
D
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.
O The electric flux through each surface would
not change.
C
$
4
R
F
%
5
V
仪
T
G
A
6
B
MacBook Pro
CO
Y
H
➡))
&
7
N
U
00 *
8
J
Resources
PII = 0
Φιν =
Dy =
M
Ф =
Incorrect
(
9
0
0
Incorrect
K
224
C Give Up?
0
مه
V
)
J
0
L
P
:
38
.
;
✓
Feedback
{
[
?
+
=
11
C
I
Resume
Attempt 1
N-m²/C
N-m²/C
N-m²/C
N-m²/C
}
1
delete
>
return
shift
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