Question:
$24$ cells of emf $ 1.5\,V $ each having internal resistance of $1$ ohm are connected to an external resistance of $ 1.5$ ohms . To get maximum current
$24$ cells of emf $ 1.5\,V $ each having internal resistance of $1$ ohm are connected to an external resistance of $ 1.5$ ohms . To get maximum current
Updated On: Jun 23, 2023
- all cells are connected in series combination
- all cells are connected in parallel combination
- 4 cells in each row are connected in series and6 such rows are connected in parallel
- 6 cells in each row are connected in series and 4 such rows are connected in parallel
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The Correct Option is D
Solution and Explanation
For series, $i=\frac{n E}{n r +R}$
$i=\frac{24 \times 1.5}{24+1.5}=1.41$
For parallel, $i=\frac{E}{\frac{r}{n}+R}$
$i=\frac{1.5}{\frac{1}{24}+1.5}$
For $4 \times 6$ combination $i =\frac{n E}{R+\frac{n r}{m}}$
$i =\frac{4 \times 1.5}{1.5+\frac{4}{6}}=2.77$
For $6 \times 4$ combination
$i=\frac{n E}{R+\frac{n r}{M}}$
$\Rightarrow i=\frac{6 \times 1.5 \times 4}{12}=3$
$i=\frac{24 \times 1.5}{24+1.5}=1.41$
For parallel, $i=\frac{E}{\frac{r}{n}+R}$
$i=\frac{1.5}{\frac{1}{24}+1.5}$
For $4 \times 6$ combination $i =\frac{n E}{R+\frac{n r}{m}}$
$i =\frac{4 \times 1.5}{1.5+\frac{4}{6}}=2.77$
For $6 \times 4$ combination
$i=\frac{n E}{R+\frac{n r}{M}}$
$\Rightarrow i=\frac{6 \times 1.5 \times 4}{12}=3$
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Concepts Used:
Current Electricity
Current electricity is defined as the flow of electrons from one section of the circuit to another.
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There are two types of current electricity as follows:
Direct Current
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Alternating Current
The current electricity that is bidirectional and keeps changing the direction of the charge flow is known as alternating current. The bi-directionality is caused by a sinusoidally varying current and voltage that reverses directions, creating a periodic back-and-forth motion for the current. The electrical outlets at our homes and industries are supplied with alternating current.