Calculate the effective capacity in the ...

Calculate the effective capacity in the following combination. Given `C_(1)=3muF and C_(2)=2muF`

Text Solution

Verified by Experts

The correct Answer is:

`C=2muF`

Topper's Solved these Questions

ELECTROSTATIC POTENTIAL AND CAPACITANCE
NEW JOYTHI PUBLICATION|Exercise Evaluation Questions And Answers|41 Videos
ELECTROSTATIC POTENTIAL AND CAPACITANCE
NEW JOYTHI PUBLICATION|Exercise Previous Year Questions|2 Videos
ELECTROSTATIC POTENTIAL AND CAPACITANCE
NEW JOYTHI PUBLICATION|Exercise Solution To Exercises From Ncert Texation|36 Videos
ELECTROMAGNETIC WAVES
NEW JOYTHI PUBLICATION|Exercise COMPETITIVE EXAM CORNER|16 Videos
MAGNETISM AND MATTER
NEW JOYTHI PUBLICATION|Exercise COMPETITIVE EXAM CORNER|13 Videos

Similar Questions

Explore conceptually related problems

Calculate the effective capacitance combination given below:

Take C_1=4.0mu F and C_2=6.0mu F in figure. Calculate the equivalent capacitance of the combination between the point s indicated.

two capacitors of capacity 200 pF and 600 pF are connected in parallel and then charged to a potential of 120 V. Determine (a) the charge on each capacitor, (b) the total charge on each cpacitor and (c) the effective capacity of the combination.

Two capacitors when connected in series the effective capacity is 2muF and when in parallel is 9muF . Calculate the value of each capacitors.

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

Find the charges on the three capacitors connected to a battery 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 .

Three capacitors of capacity 2muF, 4muF and 6muF are connected first in series and then in parallel. Find the ratio of equivalent capacities in the two combination.

NEW JOYTHI PUBLICATION-ELECTROSTATIC POTENTIAL AND CAPACITANCE-Practice Problems For Self Assessment

64 charged water droplets each with a diameter 1 mm and charge 2 xx 10...
Text Solution
|
Two charges 6muC and 3muC are kept 9 cm apart in free space. Calculate...
Text Solution
|
n' small drops of same size are charged to a potential V. The drops ca...
Text Solution
|
Three charges 6muC are fixed at the three vertices of an equilateral t...
Text Solution
|
Potential at a point by the relation V=4x^(2) +5y^(2)+6z^(2). Calculat...
Text Solution
|
Assuming the Earth to be a spherical conductor of radius 6380 km, calc...
Text Solution
|
Three capacitors of capacity 2muF, 4muF and 6muF are connected first i...
Text Solution
|
Three capacitors each of capacity 10muF are connected in parallel. Thi...
Text Solution
|
A p.d. of 280V is applied to 2muF and 5muF capacitors in series. Find ...
Text Solution
|
Calculate the charge on each capacitors shown in figure below.
Text Solution
|
Calculate the effective capacitance between A and B.
Text Solution
|
Two metal plates 50cm xx 50cm have a separation of 2cm. The metal plat...
Text Solution
|
Find the capacitane value of C if the equivalent capacity between A an...
Text Solution
|
Calculate the effective capacitance combination given below:
Text Solution
|
Match the following
Text Solution
|
Calculate the effective capacity in the following combination. Given C...
Text Solution
|
An isolated conducting sphere of radius 6cm has a charge of 1.5 muC. C...
Text Solution
|
Two capacitors 3muF and 6muF are first connected in series with a batt...
Text Solution
|
A parallel plate capacitor having plate area 50cm^(2) and separated by...
Text Solution
|
A parallel plate capacitor is charged to 50muC at 150V. It is then con...
Text Solution
|