91Ó°ÊÓ

$$\begin{gathered} {\mathrm{Î\mu }}_1=20V \\ {\mathrm{Î\mu }}_2=10V \\ {\mathrm{Î\mu }}_3=5 \\ {\mathrm{Î\mu }}_4=5V \end{gathered}$$

According to Ohm’s law, the current through a conductor placed between two pointsis directly proportional to the voltage induced across the points. That is,

$\mathit{I}\mathbf{=}\frac{\mathbf{V}}{\mathbf{R}}$

Here, $\mathit{I}\mathbf{-}\mathit{c}\mathit{u}\mathit{r}\mathit{r}\mathit{e}\mathit{n}\mathit{t}\mathbf{,}\mathbf{}\mathit{R}\mathbf{-}\mathit{r}\mathit{e}\mathit{s}\mathit{i}\mathit{s}\mathit{t}\mathit{a}\mathit{n}\mathit{c}\mathit{e}$

The rate at which energy transfers is as follows:

$P=i\mathrm{Î\mu }$

Here,$\mathit{P}\mathbf{-}\mathit{p}\mathit{o}\mathit{w}\mathit{e}\mathit{r}\mathbf{,}\mathbf{}\mathit{i}\mathbf{-}\mathit{c}\mathit{u}\mathit{r}\mathit{r}\mathit{e}\mathit{n}\mathit{t}\mathbf{,}\mathbf{}\mathit{Î\mu }\mathbf{-}\mathit{v}\mathit{o}\mathit{l}\mathit{t}\mathit{a}\mathit{g}\mathit{e}\mathbf{}\mathit{i}\mathit{n}\mathit{d}\mathit{u}\mathit{c}\mathit{e}\mathit{d}\mathbf{}\mathbf{.}$

By applying KVL,

$\begin{array}{l}{\mathrm{Î\mu }}_1+{\mathrm{Î\mu }}_3+{\mathrm{Î\mu }}_4=i_1(R+R)\\ 20+5+5=i_1(2+2)\end{array}$

Solve further as:

$i_1=7.50A$

Magnitude of current $i_1=7.50A$.

Current $\left(i_1\right)$as suggested from the diagram is leftwards this is because the current flows from the positive terminal of the battery to the negative terminal.

By applying KVL to bottom circuit,

$$\begin{gathered} i_1(R+R)−i_{2}R−i_2\left(\frac{R}{2}\right)=0 \\ 2i_{1}R−1.5i_{2}R=0 \end{gathered}$$

Solve further as:

$\begin{array}{c}{i}_2=\frac{2i_1}{1.5}\\ =10A\end{array}$

Size of the current $i_2=10A$

Current$\left(i_2\right)$is directed towards leftward direction. As observed from the figure the current will be directed from the positive to the negative terminal.

Rate of energy transfer in battery 4:

$P=(i_1+i_2){\mathrm{Î\mu }}_4$

Substitute the values and solve as:

$\begin{array}{c}P=(7.5+10)×5\\ =87.5W\end{array}$

Rate of the energy being transferred in battery 4 is $P=87.5W$

Here, energy is being supplied by the battery as the current is in the forward direction from the battery and the current flows from the negative terminal to the positive terminal.