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
NEET
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
$n$ identical cells each of $e.m.f.$ $E$ and internal resistance $r$ are connected in series. An external resistance $R$ is connected in series to this combination. The current through $R$ is
View Solution
2
According to Joule's law, if the potential difference across a conductor having a material of specific resistance remains constant, then the heat produced in the conductor is directly proportional to
View Solution
3
In the circuit shown in the figure, find the current in $45\, \Omega$ $..........\,A$
View Solution
4
The potential difference across the $100\,\Omega$ resistance in the following circuit is measured by a voltmeter of $900 \,\Omega$ resistance. The percentage error made in reading the potential difference is
View Solution
5
In the following circuit composed of identical resistors, across which terminals would you connect a battery in order to dissipate energy in all resistors
View Solution
6
Five identical cells each of internal resistance $1\, \Omega$ and $emf \;5\, {V}$ are connected in series and in parallel with an external resistance $'R'.$ For what value of $'R',$ current in series and parallel combination will remain the same ? (in $\Omega$)
View Solution
7
If $n,\,e,\,\tau $ and $m$ respectively represent the density, charge relaxation time and mass of the electron, then the resistance of a wire of length $l$ and area of cross-section $A$ will be
View Solution
8
A student uses the resistance of a known resistor $(1 \,\Omega)$ to calibrate a voltmeter and an ammeter using the circuits shown below. The student measures the ratio of the voltage to current to be $1 \times 10^3 \,\Omega$ in circuit $(a)$ and $0.999 \,\Omega$ in circuit $(b)$. From these measurements, the resistance (in $\Omega$ ) of the voltmeter and ammeter are found to be close to
View Solution
9
Resistance of a carbon resistor determined from colour codes is $(22000 \pm 5 \%) \Omega$. The colour of third band must be :
View Solution
10
When a current flows through a conductor its temperature
View Solution

Download our appand get started for free

Similar Questions

Download our app
and get started for free