(A) By analyzing the circuit diagram,we can see that all four capacitors are connected in parallel between points $A$ and $B$.Since each capacitor has

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(A) By analyzing the circuit diagram,we can see that all four capacitors are connected in parallel between points $A$ and $B$.Since each capacitor has a capacitance of $C = 8\,\mu F$,and they are in parallel,the equivalent capacitance $C_{eq}$ is given by the sum of individual capacitances:$C_{eq} = C_1 + C_2 + C_3 + C_4$$C_{eq} = 8\,\mu F + 8\,\mu F + 8\,\mu F + 8\,\mu F = 32\,\mu F$.Thus,the equivalent capacitance between points $A$ and $B$ is $32\,\mu F$.

Class 12 Physics Electric Potential and Capacitance Equivalent Capacitance of Capacitor connected in Series and Parallel

Easy

Four capacitors are connected as shown in the adjoining figure. The capacitance of each is $8\,\mu F$. The equivalent capacitance between the points $A$ and $B$ will be......$\mu F$.

A
$32$
B
$2$
C
$8$
D
$16$

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Class 12

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Electric Potential and Capacitance

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Equivalent Capacitance of Capacitor connected in Series and Parallel

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The figure shows the charge $(q)$ versus voltage $(V)$ graph for series and parallel combinations of two given capacitors. The capacitances are:

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Four capacitors are connected as shown in the adjoining figure. The capacitance of each is $8\,\mu F$. The equivalent capacitance between the points $A$ and $B$ will be......$\mu F$.

Similar Questions

In the given diagram, the potential difference $(PD)$ between $A$ and $B$ is $60 \, V$. The potential difference across the $6 \, \mu F$ capacitor is: (in $V$)

What is the equivalent capacitance between the points $P$ and $Q$ in the combination of capacitors shown in the figure (in $\mu F$)?

The network of four capacitors is connected to a battery as shown in the figure. The ratio of charges on capacitors $C_2$ and $C_4$ is

Two capacitors of capacities $2 \mu F$ and $4 \mu F$ are connected in parallel. $A$ third capacitor of $6 \mu F$ capacity is connected in series with this combination. $A$ battery of $12 \text{ V}$ is connected across this combination. The charge on the $2 \mu F$ capacitor is: (in $\mu C$)

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