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Chapter 15: Q55P (page 622)

Question: A glass sphere carrying a uniformly distributed charge of is surrounded by an initially neutral spherical plastic shell (Figure 15.67).

(a) Qualitatively, indicate the polarization of the plastic. (b) Qualitatively, indicate the polarization of the inner glass sphere. Explain briefly. (c) Is the electric field at location P outside the plastic shell larger, smaller, or the same as it would be if the plastic weren’t there? Explain briefly. (d) Now suppose that the glass sphere carrying a uniform charge of is surrounded by an initially neutral metal shell (Figure 15.68). Qualitatively, indicate the polarization of the metal.

e) Now be quantitative about the polarization of the metal sphere and prove your assertions. (f) Is the electric field at location outside the metal shell larger, smaller, or the same as it would be if the metal shell weren’t there? Explain briefly.

Short Answer

Expert verified

Answer

(a) The dipoles inside the plastic will be polarized and their negative ends will point towards the center radially.

(b) The inner glass sphere will not be polarized.

(c) The electric field at location P outside the plastic shell is same as it would be if the plastic weren’t there.

(d) The negative charges will move towards the inner surface and the positive charge will move toward the outer surface.

(e) The assertion is proved.

(f) The electric field at location P outside the plastic shell is same as it would be if the metal shell weren’t there.

Step by step solution

01

Identification of given data

The given data can be listed below as:

The charge carried by the glass sphere is +Q

02

Significance of the polarization 

The polarization is described as the property of the electromagnetic type of radiation, that helps to relate the magnitude and the direction of the electric field. However, polarization occurs when the negative electron cloud surrounds positive nuclei of atom.

03

(a) Determination of the polarization of the plastic initially

Here, it has been observed that the dipoles inside the plastic will be polarized and also orient towards themselves radially. However, the dipoles will orient pointing the negative charges towards the center.

Thus, the dipoles inside the plastic will be polarized and their negative ends will point towards the center radially.

04

(b) Determination of the polarization of the inner glass sphere

The net electric field inside the glass sphere is zero. Hence, there will not be any polarization. The charges are distributed inside the charged hollow conductor’s surface. The core has then zero amount of charge.

Thus, the inner glass sphere will not be polarized.

05

(c) Determination of the size of the electric field at the location P due to the plastic sphere

The positive charges mainly get displaced during the polarization which are closer to the location P than the negatively charged particle. Hence, as the positive charges are displaced and if the plastic is not there, then the size of the electric field will be the same.

Thus, the electric field at location P outside the plastic shell is same as it would be if the plastic weren’t there.

06

(d) Determination of the polarization of the metal finally

Here, from the given figure, it has been observed that the charge of the glass sphere is being surrounded by a neutral shell of metal. The polarization of the positive charges is mainly directed outwards and the polarization of the negative charges are mainly directed inward.Thus, the negative charges will move towards the inner surface and the positive charge will move toward the outer surface.

07

(e) Prove of the assertions made in the point (d)

As the glass sphere has been surrounded by a neutral metal shell, then the metal shell will be charged. However, it has been observed that the electric field of the positive charge is directed outward and the negative charge is directed inward. Hence, the charge will be on the outer surface and will be on the inner surface of the sphere.

Thus, the assertion is proved.

08

(f) Determination of the size of the electric field at the location P due to the metal sphere

The positive charges mainly get displaced during the polarization which are closer to location P than the negatively charged particle. Hence, as the positive charges are displaced and if the metal shell is not there, then the size of the electric field will be the same.

Thus, the electric field at location P outside the plastic shell is same as it would be if the metal shell weren’t there.

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Most popular questions from this chapter

For a disk of radius 20 cm with uniformly distributed charge 7×10-6C, calculate the magnitude of the electric field on the axis of the disk, 5 mm from the center of the disk, using each of the following equations:

(a)E=(Q/A)2ε0[1-zR2+z21/2]

(b)EQ/A2ε0[1-zR]

(c)EQ/A2ε0

(d) How good are the approximate equations at this distance? (e) At what distance does the least accurate approximation for the electric field give a result that is closest to the most accurate: at a distance R/2, close to the disk, at a distance R, or far from the disk?

A capacitor made of two parallel uniformly charged circular metal disks carries a charge of +Q and −Q on the inner surfaces of the plates and very small amounts of charge +q and −q on the outer surfaces of the plates. Each plate has a radius R and thickness t, and the gap distance between the plates is s. How much charge q is on the outside surface of the positive disk, in terms of Q?

The electric field inside a capacitor is shown on the left in Figure 15.50. Which option (1–5) best represents the electric field at location A?

A thin rod lies on the x axis with one end atand the other end at-A, as shown in Figure 15.51. A charge of-Q
is spread uniformly over the surface of the rod. We want to set up an integral to find the electric field at location <0,Y,0>due to the rod. Following the procedure discussed in this chapter, we have cut up the rod into small segments, each of which can be considered as a point charge. We have selected a typical piece, shown in red on the diagram

Answer using the variables x,y,dx,A,Qas appropriate. Remember that the rod has charge-Q. (a) In terms of the symbolic quantities given above and on the diagram, what is the charge per unit length of the rod? (b) What is the amount of chargedQon the small piece of lengthdx? (c) What is the vector from this source to the observation location? (d) What is the distance from this source to the observation location? (e) When we set up an integral to find the electric field at the observation location due to the entire rod, what will be the integration variable?

A solid plastic sphere of radius R1has a charge -Q1on its surface (Figure 15.70). A concentric spherical metal shell of inner radius R2and outer radius R3carries a charge Q2on the inner surface and a charge Q3on the outer surface. Q1, Q2, and Q3are positive numbers, and the total charge Q2+Q3on the metal shell is greater than Q1.

At an observation location a distance rfrom the center, determine the magnitude and direction of the electric field in the following regions, and explain briefly in each case. For parts role="math" localid="1656931802199" a-d, be sure to give both the direction and the magnitude of the electric field, and explain briefly: (a)role="math" localid="1656932347681" r<R1(inside the plastic sphere), (b)role="math" localid="1656932286893" R1<r<R2(in the air gap), (c)role="math" localid="1656932322994" R<r<R(in the metal),(d)role="math" localid="1656932390135" r>R3(outside the metal).(e) Supposerole="math" localid="1656932377163" -Q1=-5nC. What isrole="math" localid="1656932400004" Q2? Explain fully on the basis of fundamental principles. (f) What can you say about the molecular polarization in the plastic? Explain briefly. Include a drawing if appropriate.
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