1.4 CHARGING BY INDUCTION

Submitted by superadmin on 11 April, 2024 - 18:09

Screen Readable NCERT Class 12 Physics for blind and visually impaired students.

When we touch a pith ball with an electrified plastic rod, some of the negative charges on the rod are transferred to the pith ball and it also gets charged. Thus the pith ball is charged by contact. It is then repelled by the plastic rod but is attracted by a glass rod which is oppositely charged. However, why a electrified rod attracts light objects, is a question we have still left unanswered. Let us try to understand what could be happening by performing the following experiment.

(i) Bring two metal spheres, A and B, supported on insulating stands, in contact as shown in Fig. 1.4(a).

FIGURE 1.4(a) Charging by induction.

shows 2 metal spheres A & B, mounted on insulating stands. By Dr. TKBansal & ArunS.

(ii) Bring a positively charged rod near one of the spheres, say A, taking care that it does not touch the sphere. The free electrons in the spheres are attracted towards the rod. This leaves an excess of positive charge on the rear surface of sphere B. Both kinds of charges are bound in the metal spheres and cannot escape. They, therefore, reside on the surfaces, as shown in Fig. 1.4(b).

FIGURE 1.4 (b) Charging by induction.

shows the 2 balls A & B touching each other. A positively charged rod is brought near the sphere A. It can be seen that negative charge collects on sphere A near the the rod, & the positive charges get collected on the sphere B away from the rod. By Dr. TKBansal.

The left surface of sphere A, has an excess of negative charge and the right surface of sphere B, has an excess of positive charge. However, not all of the electrons in the spheres have accumulated on the left surface of A. As the negative charge starts building up at the left surface of A, other electrons are repelled by these. In a short time, equilibrium is reached under the action of force of attraction of the rod and the force of repulsion due to the accumulated charges. Fig. 1.4(b) shows the equilibrium situation. The process is called induction of charge and happens almost instantly. The accumulated charges remain on the surface, as shown, till the glass rod is held near the sphere. If the rod is removed, the charges are not acted by any outside force and they redistribute to their original neutral state.

(iii) Separate the spheres by a small distance while the glass rod is still held near sphere A, as shown in Fig. 1.4(c). The two spheres are found to be oppositely charged and attract each other.

FIGURE 1.4(c) Charging by induction.

shows that the 2 spheres are Separated by a small distance while the glass rod is still held near sphere A. The two spheres are found to be oppositely charged and attract each other.By Dr TKBansal.

(iv) Remove the rod. The charges on spheres rearrange themselves as shown in Fig. 1.4(d).

FIGURE 1.4(d) Charging by induction

shows the 2 spheres; sphere A with negative charge, & sphere B with positive charge. The 2 spheres are shown to be attracting each other. By Dr TKBansal.

Now, separate the spheres quite apart. The charges on them get uniformly distributed over them, as shown in Fig. 1.4(e).

FIGURE 1.4(e) Charging by induction.

shows the 2 spheres separated from each other & the rod is removed. It can be seen that the charges on the 2 spheres redistribute & spreads over the entire sphere respectively. By Dr TKBansal & ArunS.

In this process, the metal spheres will each be equal and oppositely charged. This is charging by induction. The positively charged glass rod does not lose any of its charge, contrary to the process of charging by contact.

When electrified rods are brought near light objects, a similar effect takes place. The rods induce opposite charges on the near surfaces of the objects and similar charges move to the farther side of the object.

[This happens even when the light object is not a conductor. The mechanism for how this happens is explained later in Sections 1.10 and 2.10.] The centres of the two types of charges are slightly separated. We know that opposite charges attract while similar charges repel. However, the magnitude of force depends on the distance between the charges and in this case the force of attraction overweighs the force of repulsion. As a result the particles like bits of paper or pith balls, being light, are pulled towards the rods.

 

Example 1.1

How can you charge a metal sphere positively without touching it?

 

Solution:

Figure 1.5(a) shows an uncharged metallic sphere on an insulating metal stand.

Fig. 1.5 (a)

shows an uncharged metallic sphere mounted on an insulating metal stand. By Dr TKBansal.

Bring a negatively charged rod close to the metallic sphere, as shown in Fig. 1.5(b).

Fig. 1.5 (b)

shows that a negatively charged rod is brought near the metal sphere, such that the rod does not touch the sphere. It can be seen that positive charges get collected at the near surface of the sphere, & the negative on the farther surface. By Dr TKBansal.

As the rod is brought close to the sphere, the free electrons in the sphere move away due to repulsion and start piling up at the farther end. The near end becomes positively charged due to deficit of electrons. This process of charge distribution stops when the net force on the free electrons inside the metal is zero. Connect the sphere to the ground by a conducting wire. The electrons will flow to the ground while the positive charges at the near end will remain held there due to the attractive force of the negative charges on the rod, as shown in Fig. 1.5(c).

Fig. 1.5 (c)

shows that the sphere is Connected to the ground by a conducting wire. The electrons have flown to the ground while the positive charges at the near end remain held there due to the attractive force of the negative charges on the rod. By Dr TKBansal

Disconnect the sphere from the ground. The positive charge continues to be held at the near end [Fig. 1.5(d)].

Fig. 1.5 (d)

shows that even after Disconnecting the sphere from the ground, the positive charges continue to be held at the near end of the sphere. By Dr TKBansal & ArunS.

Remove the electrified rod. The positive charge will spread uniformly over the sphere as shown in Fig. 1.5(e).

Fig. 1.5 (e)

shows that on the removal of the electrified rod, the positive charges on the sphere have spread uniformly over the sphere. By Dr. TKBansal.

In this experiment, the metal sphere gets charged by the process of induction and the rod does not lose any of its charge.

Similar steps are involved in charging a metal sphere negatively by induction, by bringing a positively charged rod near it. In this case the electrons will flow from the ground to the sphere when the sphere is connected to the ground with a wire. Can you explain why?