91Ó°ÊÓ

Figure 21-12 represents three pairs of identical spheres with their charges indicated on them.

When two charged bodies are brought in contact with each other, the total charge of the system is divided among the given charged bodies equally until both have the same charge as per their volume. This process is called charging by conduction. Thus, using this concept, the charges on each body can be calculated.

As per the concept, the charge acquired by bodies during touching in pair (1) is given as

$$\begin{gathered} q_1=\frac{+6e-4e}{2} \\ =\frac{+2e}{2} \\ =+e \end{gathered}$$

Now, the magnitude of the amount of charge transferred in situation 1 can be given as

$$\begin{gathered} \left|Q_1\right|=\left|\right(+6e)-(+e) \\ =5e \end{gathered}$$

Similarly, the total charge acquired by bodies during touching in pair (2) is given as

$$\begin{gathered} q_2=\frac{0e+2e}{2} \\ =\frac{+2e}{2} \\ =+e \\ \left|q_2\right|=e \end{gathered}$$

Now, the magnitude of the amount of charge transferred in situation 1 can be given as

$$\begin{gathered} \left|Q_2\right|=\left|\right(+2e)-(+e\left)\right| \\ =e \end{gathered}$$

Similarly, the total charge acquired by bodies during touching in pair (3) is given as

$$\begin{gathered} q_3=\frac{-12e+14e}{2} \\ =\frac{+2e}{2} \\ =+e \end{gathered}$$

Now, the magnitude of the amount of charge transferred in situation 1 can be given as

$$\begin{gathered} \left|Q_3\right|=\left|\right(+14e)-(+e) \\ =13e \end{gathered}$$

Hence, the rank of the pairs according to the magnitude of charges transferred by the body is$\left|Q_3\right|â‰\yen \left|Q_1\right|â‰\yen \left|Q_2\right|$.

From calculations of part (a), we can say that the charge left over on the positively charged sphere of all the pairs is just the same charge that is acquired by each sphere.

All the positive spheres in case of the three pairs have charge equal to the value $+e.$

Hence, the ranking of the situations according to the charge left on the positive sphere isrole="math" localid="1662970981861" $q_1=q_2=q_{3.}$