In the circuit shown below, the switch S is connected to position P for a long time so that the charge on the capacitor becomes

Q: In the circuit shown below, the switch $S$ is connected to position $P$ for a long time so that the charge on the capacitor becomes $q _1 \mu C$. Then $S$ is switched to position $Q$. After a long time, the charge on the capacitor is $q _2 \mu C$. ($1$) The magnitude of $q_1$ is ($2$) The magnitude of $q _2$ is Give the answer of question ($1$) and ($2$)

b $V _{ A }-1 \cdot i _1-1+2-2 i _1= V _{ A }$ $3 i _1=1$ $i _1=\frac{1}{3} A$ $V _{ A }-1 \cdot i _1-1= V _{ B }$ $V _{ A }- V _{ B }=1+ i _1=\frac{4}{3} \text { volt }$ Potential drop across capacitor $\Delta V =\frac{4}{3}$ volt $\therefore \quad$ Charge on capacitor $q _1= C \Delta V$ $= 1 \times \frac{4}{3} \mu C$ $q _1= 1.33 \mu C$ (image) $V _{ A }-1 \cdot i _2+2-2 i _2= V _{ A }$ $3 i _2=2$ $i _2=\frac{2}{3} A$ $V _{ A }- i _2 \times 1= V _{ B }$ $V _{ A }- V _{ B }= i _2 \times 1=\frac{2}{3} \text { volt }$ Potential difference across capacitor $\Delta V =\frac{2}{3}$ volt $\therefore \quad \text { Charge on capacitor } q _2 = C \Delta V$ $=1 \times \frac{2}{3}=0.67 \mu C$

SECTION - A [PHYSICS MCQ]

GSEB - English Medium

In the circuit shown below, the switch $S$ is connected to position $P$ for a long time so that the charge on the capacitor becomes $q _1 \mu C$. Then $S$ is switched to position $Q$. After a long time, the charge on the capacitor is $q _2 \mu C$.

($1$) The magnitude of $q_1$ is

($2$) The magnitude of $q _2$ is

Give the answer of question ($1$) and ($2$)

A$1.30,0.60$
B$1.33,0.67$
C$1.33,0.60$
D$1.30,0.70$

IIT 2021, Advanced

STD 11 Science
JEE
STD 12 - 3. current electricity
Physics

Download our app
and get started for free

Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*

Download App

Similar Questions

1
Two identical heater filaments are connected first in parallel and then in series. At the same applied voltage, the ratio of heat produced in same time for parallel to series will be:
View Solution
2
the given potentiometer has its wire of resistance $10\, \Omega$. When the sliding contact is in the middle of the potentiometer wire, the potential drop across $2\, \Omega$ resistor is -
View Solution
3
In a Wheatstone bridge, $P = 90\,\Omega $, $Q = 110\,\Omega $ , $R = 40\,\Omega $ and $S = 60\,\Omega $ and a cell of $4\,V\,emf$. Then the potential difference between the diagonal along which a galvanometer is connected is ............. $V$
View Solution
4
A certain wire has a resistance $R$. The resistance of another wire identical with the first except having twice its diameter is
View Solution
5
The equivalent resistance between the points $P$ and $Q$ in the network given here is equal to ................ $\Omega$ (given $r = \frac{3}{2}\Omega $)
View Solution
6
$A$ uniform copper wire carries a current $i$ amperes and has $p$ carriers per meter$^3$. The length of the wire is $\lambda$ meters and its cross-section area is $s$ meter $^2$. If the charge on a carrier is $q$ coulombs, the drift velocity in $ms^{-1}$ is given by
View Solution
7
Two cylindrical rods of uniform crosssection area $A$ and $2A$, having free electrons per unit volume $2n$ and $n$ respectively are joined in series. A current $I$ flows through them in steady state. Then the ratio of drift velocity of free electron in left rod to drift velocity of electron in the right rod is $\left( {\frac{{{v_L}}}{{{v_R}}}} \right)$
View Solution
8
The resistances in $WSB$ circuit shown in the diagram all are different and the current through the galvanometer is zero. If all thermal effects are negligible, the current through the galvanometer will not be zero, when
View Solution
9
A metal wire has a resistance of $35 \,\Omega$. If its length is increased to double by drawing it, then its new resistance will be (in $\Omega$)
View Solution
10
The drift velocity does not depend upon
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free