Based on the figure below, explain which statement(s) best explain(s) the method to obtain electric field, E using Gauss's Law at Location A. Location A Gaussian surface SG +Psa (i) The cylindrical surface is chosen as a Gaussian surface SG, as it satisfie he symmetry condition of the +Psa and -psb shape. (ii) The spherical surface is chosen as a Gaussian surface SG, as it satisfies the symmetry condition of the +psa and -psb shape. (iii) A single Gaussian surface can be used for both surfaces to calculate E at Location A. (iv) Both charges must use separate Gaussian surfaces to calculate E at Location A. A. (i) and (iv) В. (ii) and (i) C. (i) and (ii) D. (ii) and (iv)

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Based on the figure below, explain which statement(s) best explain(s) the method to obtain electric field, E using Gauss's Law at Location A.
Location A
Gaussian surface SG
+Psa
(i) The cylindrical surface is chosen as a Gaussian surface SG, as it satisfie
he symmetry condition of the +Psa and -psb shape.
(ii) The spherical surface is chosen as a Gaussian surface SG, as it satisfies the symmetry condition of the +psa and -psb shape.
(iii) A single Gaussian surface can be used for both surfaces to calculate E at Location A.
(iv) Both charges must use separate Gaussian surfaces to calculate E at Location A.
A.
(i) and (iv)
В.
(ii) and (i)
C.
(i) and (ii)
D.
(ii) and (iv)
Transcribed Image Text:Based on the figure below, explain which statement(s) best explain(s) the method to obtain electric field, E using Gauss's Law at Location A. Location A Gaussian surface SG +Psa (i) The cylindrical surface is chosen as a Gaussian surface SG, as it satisfie he symmetry condition of the +Psa and -psb shape. (ii) The spherical surface is chosen as a Gaussian surface SG, as it satisfies the symmetry condition of the +psa and -psb shape. (iii) A single Gaussian surface can be used for both surfaces to calculate E at Location A. (iv) Both charges must use separate Gaussian surfaces to calculate E at Location A. A. (i) and (iv) В. (ii) and (i) C. (i) and (ii) D. (ii) and (iv)
Which statements are CORRECT to represent the figure below?
Metal
conductor
Pv
E
(i) The net field inside the metal conductor is equal to zero
(ii) According to Gauss's Law, the Gaussian surface should be constructed outside of the metal conductor.
(iii) There is a potential difference exists between any two points in the conductor.
(iv) Since the electric field, E is coming out from the surface of the metal conductor, the induced surface charge density, p, will be formed.
А.
(i), (ii) and (iii)
В.
(i), (ii) and (iv)
C.
(ii), (iii) and (iv)
D.
(i) , (iii) and (iv)
Transcribed Image Text:Which statements are CORRECT to represent the figure below? Metal conductor Pv E (i) The net field inside the metal conductor is equal to zero (ii) According to Gauss's Law, the Gaussian surface should be constructed outside of the metal conductor. (iii) There is a potential difference exists between any two points in the conductor. (iv) Since the electric field, E is coming out from the surface of the metal conductor, the induced surface charge density, p, will be formed. А. (i), (ii) and (iii) В. (i), (ii) and (iv) C. (ii), (iii) and (iv) D. (i) , (iii) and (iv)
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