II. Gauss’s Law 1. Find the flux through the top, left, and right sides of a cube of side 0.5 m when placed in a horizontal uniform electric field of 8.0 N/C directed to the right. 2. Calculate the electric flux for each of the closed surfaces a, b, c, and d if ?1 = 5 ??, ?2 = −8 ??, ?3 = −3 ??, ?4 = −8 ??, ?5 = 4 ??, ?6 = 7 ??, ?7 = 5 ??, and ?8 = −5 ??. III. Charge Distribution 1. A solid insulating sphere of radius 0.07 m carries a total charge of 25 ??. Find (a) the charge distribution for the insulating sphere and the magnitude of electric field at (b) 0.15 m and (c) 0.03 m from the center of the sphere.

II. Gauss’s Law 1. Find the flux through the top, left, and right sides of a cube of side 0.5 m when placed in a horizontal uniform electric field of 8.0 N/C directed to the right. 2. Calculate the electric flux for each of the closed surfaces a, b, c, and d if ?1 = 5 ??, ?2 = −8 ??, ?3 = −3 ??, ?4 = −8 ??, ?5 = 4 ??, ?6 = 7 ??, ?7 = 5 ??, and ?8 = −5 ??. III. Charge Distribution 1. A solid insulating sphere of radius 0.07 m carries a total charge of 25 ??. Find (a) the charge distribution for the insulating sphere and the magnitude of electric field at (b) 0.15 m and (c) 0.03 m from the center of the sphere.

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Question

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II. Gauss’s Law

1. Find the flux through the top, left, and right sides of a cube of side 0.5 m when

placed in a horizontal uniform electric field of 8.0 N/C directed to the right.

2. Calculate the electric flux for each of the closed surfaces a, b, c, and d if ?1 = 5 ??,

?2 = −8 ??, ?3 = −3 ??, ?4 = −8 ??, ?5 = 4 ??, ?6 = 7 ??, ?7 = 5 ??, and ?8 = −5 ??.

III. Charge Distribution

1. A solid insulating sphere of radius 0.07 m carries a total charge of 25 ??. Find (a)

the charge distribution for the insulating sphere and the magnitude of electric field

at (b) 0.15 m and (c) 0.03 m from the center of the sphere.

II.
Gauss's Law
1. Find the flux through the top, left, and right sides of a cube of side 0.5 m when
placed in a horizontal uniform electric field of 8.0 N/C directed to the right.
2. Calculate the electric flux for each of the closed surfaces a, b, c, and d if q1 = 5 mC,
923 —8 тС, qз — —3 тС, q, — -8 тС, qs %3D 4 тС, q6 3D 7 тС, 9, 3D 5 тС, and qs 3D-5 тC.
=
Charge Distribution
1. A solid insulating sphere of radius 0.07 m carries a total charge of 25 µC. Find (a)
the charge distribution for the insulating sphere and the magnitude of electric field
at (b) 0.15 m and (c) 0.03 m from the center of the sphere.
III.

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