(i) Find out the charges on the three ca...

(i) Find out the charges on the three capacitors connected to a battery as shown in figure. Take `C_(1)=1.0 mu F , C_(2)=2.0 mu F, C_(3)=3.0 mu F` and V=20 volt

(ii) Find out the work done by the battery during the process of charging (initially all the capacitors are uncharged)
(iii) Find out the total energy stored in the capacitors.

Text Solution

Verified by Experts

The correct Answer is:

(i) `20mu C, 40mu F, 60 mu C`
(ii) `2400 mu J " " (iii) 1200 mu J`

Topper's Solved these Questions

CAPACITANCE
RESONANCE|Exercise Exercise - 2|74 Videos
CAPACITANCE
RESONANCE|Exercise Exercise - 3|26 Videos
CAPACITANCE
RESONANCE|Exercise Miscellaneous Solved Example|3 Videos
ATOMIC PHYSICS
RESONANCE|Exercise Advanved level problems|17 Videos
COMMUNICATION SYSTEMS
RESONANCE|Exercise Exercise 3|13 Videos

Similar Questions

Explore conceptually related problems

Find the charges on the three capacitors connected to a battery as shown in figure. Take C_1 = 2.0 mu F, C_2, = 4.0 mu F , C_3 = 6.0 mu F and V =10 volt

Find the charges on the three capacitors connected to a bettery as shown in figure (31.E1). Take C_1=2.0=2.0,muF, C_2=4.0,muf, C_3=6.0,muF and V=12volts .(31-E1). Take C_1=2.0 mu F, C_2=4.0 mu F, C_2=6.0 mu F and V=12volts .

(i) Find the total charge flown through the battery in the arrangement shown in figure after switch S is closed (initially all the capacitors are uncharged). (ii) Find out final charge on each capacitor.

Three initially uncharged capacitors are connected to a battery of 10 V in parallel combination. Find out the following ? total energy stored in the capacitors

In steady state, find the charge on the capacitor in (mu C) shown in figure.

(a ) Find the equivalent capacitance of the combination shown in the figure ( a) when C_(1)=2.0 mu F, C_(2)=4.0 muF " and " C_(3) =3.0 muF (b ) The input terminals A and B in figure (a) are connected to a battery of 12 V. Find the potential and the charge of each capacitor .

In the circuit shown in the figure four capacitors are connected to a battery. The p.d across the 7 mu F capacitor is 6V . .

A combination arrangement of the capacitors is shown in the figure (i) C_(1)=3 mu F, C_(2) =6 mu F and C_(3)= 2 mu F then equivalent capacitance between 'a' and 'b' is :

Three series capacitors of capacitances 2.0, 3.0 and 6.0 mu F are charged by a 60 V vattery. Find the total energy stored.

RESONANCE-CAPACITANCE-Exercise - 1

Find the potential difference between the points A and B (V(A)-V(B)) a...
Text Solution
|
In a circuit shown in fig find the potentail difference between the ...
Text Solution
|
(i) Find out the charges on the three capacitors connected to a batter...
Text Solution
|
If you have several 2.0 muF capacitrors, each capable of withstanding ...
Text Solution
|
Take the potential of the point B as shown in the figure to be 100 V....
Text Solution
|
Find the capacitance between the point A and B of the given assemblies...
Text Solution
|
Find the potential difference between the points A and B and between t...
Text Solution
|
Consider the situation shown in the figure. The switch S is open for ...
Text Solution
|
Find the final charges in steady state on the four capacitors of capac...
Text Solution
|
A capacitor is connected to a 36 V battery through a resistance of 10 ...
Text Solution
|
A capacitor of capacity 1muF is connected in a closed series circuit w...
Text Solution
|
A capacitor of capacitance 200mu F is connected across a battery of e...
Text Solution
|
A 5.0 muF capacitor having a charge of 20 muC is discharged through a ...
Text Solution
|
A varying voltage is applied to the clamps AB as shown in fig. such th...
Text Solution
|
A capacitor of capacitance C is given a charge go. At time t = 0, it i...
Text Solution
|
The two parallel plates of a capacitor have equal and opposite charges...
Text Solution
|
The area of parallel plates of an air capacitor is 0.2 m^(2) and the ...
Text Solution
|
A parallel plate capacitor consists of two metal plates of area A and ...
Text Solution
|
Two parallel plate air capacitance C, were connected in series to ...
Text Solution
|
A parallel-plate capacitor of plate area A and plate separation d is c...
Text Solution
|