Let x be the potential at the junction.The potential
of (-) ve terminal of the battery is 0V and of the (+)
ve terminal is 40 V.
The potential at the junction is
1 1 2 2 3 3
1 2 340 4 40 4 0 4
4 4 4V C V C V C
x
C C C
80
V
3xThe charges on the two capacitors that are in
parallel are equal
80 160
4 F(40- )
3 3C
Whereas the charge on the right capacitor is
80 320
4 0
3 3F V C
The charges on the capacitors are
The total (+)ve charge supplied by the battery is
320
3CAfter closing the switch s the right side capacitor
is short circuited and can be disconnected. The
charges on the two capacitors are
The total (+)ve charge supplied by the battery is
360 .C From the above two charge distributions
After closing the switch the charge that passes
through AB (through the battery)is
320
(320 )
3 C = 213 CA battery always supplies equal and opposite
charges from its two terminals so we can conserve
charge on a loop that has both terminal of a battery.
Consider an indepedent loop that has two terminals
of a battery. The total charge on the loop is zero.
Two possible independent loops are shown in the
figure.By applying Kirchoff’s law24 12 0
4 2
q q
V V
F F3
12 16
4 q
q CThe potential difference between a and b is
16
8
2 2
a b q C
V V V
F F(^22) ,
Z R XL XLL and ^2 f
Z R^24 2 2 2f L
s p
p s
N i
N i
or
When the switch is closed
42.Sol:
43.Sol:
44.Sol:
45.Sol:
25
50
1 2
p
p
i
i A
The boolean expression of this gate is
(^) Y= (A+B).(A+B)=(A+B)+ (A+B)= (A+B)
which is for NOR gate.