© 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

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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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2
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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
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P₁ =
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Surface II
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N-m²/C
N-m²/C
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return
shift
Transcribed Image Text:@ 2 W S 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
<
@
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 &mu;C, 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
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224
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Feedback
{
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N-m²/C
N-m²/C
N-m²/C
N-m²/C
}
1
delete
>
return
shift
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 &mu;C, 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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