Using the Gaussian surface shown below, find the total charge enclosed by the Gaussian surface due to the infinite sheet of charge.Gaussian surface2m1minfinite sheet of chargeyXА.Qenc = S ps dx dy + S ps dx dyВ.Qenc = f ps dx dyC.Qenc = f ps R dr do + ps R dr doD.Wrong selection of Gaussian Surface Calculate the total electric field at z = 4 m of two infinitely large parallel plates shown below carrying equal and same charge of p3 = 1 C/m?.2m+ 1myА.O V/m0.5/ E, V/mВ.C. O1.0/ E, V/mD. O1.5 / E, V/m

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Using the Gaussian surface shown below, find the total charge enclosed by the Gaussian surface due to the infinite sheet of charge. Gaussian surface 2m 1m infinite sheet of charge y А. Qenc = S ps dx dy + S ps dx dy В. Qenc = f ps dx dy C. Qenc = f ps R dr dø + ſſ ps R dr dø

Using the Gaussian surface shown below, find the total charge enclosed by the Gaussian surface due to the infinite sheet of charge. Gaussian surface 2m 1m infinite sheet of charge y А. Qenc = S ps dx dy + S ps dx dy В. Qenc = f ps dx dy C. Qenc = f ps R dr dø + ſſ ps R dr dø

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter19: Electric Forces And Electric Fields

Section: Chapter Questions

Problem 30P

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Concept explainers

Electric Charges and Fields

One of the fundamental properties is the electromagnetic property. Charge cannot be destroyed by any process and this contributes formally to the law of charge conservation.

Question

Using the Gaussian surface shown below, find the total charge enclosed by the Gaussian surface due to the infinite sheet of charge.
Gaussian surface
2m
1m
infinite sheet of charge
y
X
А.
Qenc = S ps dx dy + S ps dx dy
В.
Qenc = f ps dx dy
C.
Qenc = f ps R dr do + ps R dr do
D.
Wrong selection of Gaussian Surface

Calculate the total electric field at z = 4 m of two infinitely large parallel plates shown below carrying equal and same charge of p3 = 1 C/m?.
2m
+ 1m
y
А.
O V/m
0.5/ E, V/m
В.
C. O
1.0/ E, V/m
D. O
1.5 / E, V/m

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