![\"\"](\"/userfiles/29637.gif\")
Step 1:
\
The two capacitors ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=4b10847b02e7e69350c09d97840a8c1e.png\")
are in series.
Consider ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=a9beb513324cb39e8f854e038965651c.png\")
be the total series capacitance.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=52f0e4d74e17b71f4317a702dfcde099.png\")
Now Find the total capacitance.
\Consider ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=6a01474546760c090139657fab87200b.png\")
be the total capacitance.
Here ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=be5dcd9d62d0b599ff888adf2e4c7841.png\")
are in parallel.
So ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=921a5a030065d0e3846ea8e645abaa70.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=eb6a358b29c33d820e59b6f3b7ca556b.png\")
The total capacitance is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=95f5e1e14368e5f83e412491d32d11b5.png\")
.
Step 2:
\Find the total charge ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=c5736123aec744d2c2c3487ac57b0310.png\")
on the circuit.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=c86bdf5c247f4c40b1871a1bf4356237.png\")
The total charge is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=71caea3426533d1896ad76e4f77c82ed.png\")
.
In parallel circuit, voltage is same and charge will change.
\Find the charge across the series capacitance.
\So ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=36da2e6a8e214ebe6f9f961bd7dee097.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=5eff8d8b480ad48d661c943525857340.png\")
The charge across the series capacitance is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=0180e8488591a9abbdd465a80c707992.png\")
.
Step 3:
\Find the potential difference across the each of the series capacitance.
\In series circuit, charge is same and voltage will change.
\Find the voltage across the capacitor ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=244753db6880e0649ce5345295078878.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=91cf60e8c9f4353b8f7af1c79ec263a3.png\")
Find the voltage across the capacitor ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=e5e399cd7c73bc31c23548d94120bb25.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8a54da16a211b0c28d35dbef17821753.png\")
The voltage across the capacitors are ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=6ff530ce7cfd1660224ba8819f4c4486.png\")
.
Solution :
\The total capacitance is .
The total charge is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=71caea3426533d1896ad76e4f77c82ed.png\")
.
The charge across the series capacitance is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=0180e8488591a9abbdd465a80c707992.png\")
.
The voltage across the capacitors are ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=6ff530ce7cfd1660224ba8819f4c4486.png\")
.