The charge lowered into the center of the hollow conductor has a magnitude of 1.6 µC. Find the magnitude and sign of the charge on the inside and outside of the hollow conductor when the charge is as shown in the following images. Four figures show different stages of a small, negatively-charged sphere being lowered into the center of a large, hollow, metal spherical shell. The shell has a hole at its top so that the small sphere can be lowered into its interior without touching it. A meter connected to the outside surface of the spherical shell measures the magnitude of charge. Figure (a): The small, negatively-charged sphere is suspended above the hollow shell at the end of a string. No charges are on the hollow shell. The charge meter reads 0. Figure (b): The small, negatively-charged sphere is lowered into the center of the interior of the hollow shell. Positive charges are distributed around the inside surface of the shell. An equal number of negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level. Figure (c): The small sphere is lowered so that it touches the bottom of the hollow shell. No charges are on the small sphere. Negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level. Figure (d): The small sphere is lifted out of the hollow shell. No charges are on the small sphere. Negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level. (a) Figure (a) Inside: µC Outside: µC
The charge lowered into the center of the hollow conductor has a magnitude of 1.6 µC. Find the magnitude and sign of the charge on the inside and outside of the hollow conductor when the charge is as shown in the following images. Four figures show different stages of a small, negatively-charged sphere being lowered into the center of a large, hollow, metal spherical shell. The shell has a hole at its top so that the small sphere can be lowered into its interior without touching it. A meter connected to the outside surface of the spherical shell measures the magnitude of charge. Figure (a): The small, negatively-charged sphere is suspended above the hollow shell at the end of a string. No charges are on the hollow shell. The charge meter reads 0. Figure (b): The small, negatively-charged sphere is lowered into the center of the interior of the hollow shell. Positive charges are distributed around the inside surface of the shell. An equal number of negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level. Figure (c): The small sphere is lowered so that it touches the bottom of the hollow shell. No charges are on the small sphere. Negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level. Figure (d): The small sphere is lifted out of the hollow shell. No charges are on the small sphere. Negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level. (a) Figure (a) Inside: µC Outside: µC
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Refer to the figure below. The charge lowered into the center of the hollow conductor has a magnitude of 1.6 µC. Find the magnitude and sign of the charge on the inside and outside of the hollow conductor when the charge is as shown in the following images.
Four figures show different stages of a small, negatively-charged sphere being lowered into the center of a large, hollow, metal spherical shell. The shell has a hole at its top so that the small sphere can be lowered into its interior without touching it. A meter connected to the outside surface of the spherical shell measures the magnitude of charge.
- Figure (a): The small, negatively-charged sphere is suspended above the hollow shell at the end of a string. No charges are on the hollow shell. The charge meter reads 0.
- Figure (b): The small, negatively-charged sphere is lowered into the center of the interior of the hollow shell. Positive charges are distributed around the inside surface of the shell. An equal number of negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level.
- Figure (c): The small sphere is lowered so that it touches the bottom of the hollow shell. No charges are on the small sphere. Negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level.
- Figure (d): The small sphere is lifted out of the hollow shell. No charges are on the small sphere. Negative charges are distributed around the outside surface of the shell. The charge meter reads 3⁄4 of its maximum level.
(a) Figure (a)
(b) Figure (b)
(c) Figure (c)
(d) Figure (d)
Inside: | µC |
Outside: | µC |
(b) Figure (b)
Inside: | µC |
Outside: | µC |
(c) Figure (c)
Inside: | µC |
Outside: | µC |
(d) Figure (d)
Inside: | µC |
Outside: | µC |
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