



Study with the several resources on Docsity
Earn points by helping other students or get them with a premium plan
Prepare for your exams
Study with the several resources on Docsity
Earn points to download
Earn points by helping other students or get them with a premium plan
The concept of parallel plate capacitor capacitance. It describes how the plates are connected and how the potential difference is calculated between them. The document also discusses the types of capacitors and their combinations. It includes mathematical equations and graphs to explain the concepts. useful for students studying electrical engineering or physics.
Typology: Lecture notes
1 / 6
This page cannot be seen from the preview
Don't miss anything!




Capacitor o— Pope Capacitnte auwo unetallee phates Que Use
and plates ane commected cucth bald The pombe
ushich. as conmected with pasctive Lew battle
re Mes oge tive @ !'awd which os connec
Leth ative
Ftence L att Og
Wie —-Ve&e
non Gecause election tuamfiy, fuem ene
Contes tuntel (^) potential difference betueen
blarre becerne equal^ tp^ EME^
of batten.
\
is (+) c o
“Hew, Vr po tential | | _
ar fleaense
I a
[tn
ok Faxatl plate Cap act tox °— An ths eabaccte. tuo ‘Plage
unetallte plates uses and placed bacallel to each other
also ; Capac^ tose^ commect^
weth ba^ Lap^ then
one on
ptete
£3 equal and
opposite.
(Symbol)
Deuvalren^6 ef
Capo cilacne “f| paraltet
pia be
Capacitore °
het Q
paualil plate
cabaci tou
which plate Quen
Ls A
aund il axasan
betusoeer plate ud and
Qin ts
betureery the plote. We howe b dontve 245 capaci lone ,
Fatty a calewtale eleluce Meth
Gd (B) bebe (^) plate of
capantow. + 2
7 2
fut electecec deel dus to +ve yy
plate. 2s E, *, B,e 2
2 Se
Also; eclecteeie feud du to -ve piste is Es
ee. E,- a
eo Net (^) elechice déeld betcreen (^) p Lote = Eneb = t)+ Ey
"3En eee”&
Eng 2 ee &
2° AS,
pe teenteat difference betueen plate = Ay- LxA¥
‘ po ben bial difdeneree (^) eve (^3) og
Age
Ve 6d
A &o
Cea t fesetiet plate Capacitor
= A &
_&) d
Cr —
J
Node 2 4) di’
plate ; then capaci tare 2
Kes Di-electeric
Conmgtar.}
wheal
eeoeeld
happen
“4 ser
the
capac
toe
23 Exp
lac
bhichh
wvica skeet
every ein exercise
2:8. 3mm
(of e- dicleetile
conslaml=
) wert
tin gucte d
bet urceer
th plate,
(a) LJhe
le -Lhe VO bdage
ebb U
sewvjaived
co ye cted.
(b > af ben the.
sup bl was
disconnected.
(ce) c'- Atak iaax¢
pF |
a
3mm >
|
acl |-—
x 6X too
= |.77xXb
Xlo-4c
=< |.377 XO ne
\oov
b
a,
Te
(b)
Coz AS yu
s y7.7re
pF
TH
d
a Z
g= cv
10".
le
we
ats
-v'
6xlor™
vi: =e
Vo lt.
*K raph
betwee)
Q Ve _V
fom Capacitor
t
a
f bs
wee rn &
®
d
V—
Lobe - fan9 = 2
gi U4Ace Vv~g AS^ Shouse^
what 4
Vale {^ capaci lice
tang (bd +
.
wo
(ay
) L^ (a^
) No.
0
Solh tn C.^
lan (9o-0) =^ Glo^
Ger
g.
Ener sf merayo densitynach
fos Thinto
conductor
A
.
and IB. Graph
hetreeew, Q~V¥
laa
Ca >
Ca
(b>
Gc,
Lan, > tal,
Cp > CB
| beteeteeen
b late of Capacitor
$——
Serie y dently.
Ps Errore
meg ONO
Se ess
——__
wl. a
Fy ov
AXd
)
= TC
a
Ad
id
2 (——
J— AH
d Japa
¥
v>
2 (Sey
are
$ %E*
d
force betuee te
Cofacttote §—
fouce 07 ptate duz
to cack Faft
:
Othexn ,
e En
a^7 t
coludabion
of eter^
OTL p1ak
|
feu
pue calculate
electeue
ae
~^8
due
p tate
Avene^
,
Fouce OT)
pate