blob: ed56059810594f25ed5a2d314f0d5ba47bbd425b (
plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
|
// Example 2.8
v=120; // Supply voltage
p=60; // Power
R=v^2/p; // Resistance
// the combination R of bulb B & C is Rbc=240/2 i.e Rbc=120
// vb=vc
Rbc=240/2; // R of each bulb
k=240+120;
vc=Rbc*(120/k); // volt across Vc & Vb {using Volt Divider Rule }
va=120-40; // volt across Va
disp(' the Voltage across bulb A & B = '+string(vc)+' Volt');
disp(' the Voltage across bulb C = '+string(va)+' Volt');
vb=40;
p=(va)^2/240+(vb)^2/240+(vc)^2/240; // p=pa+pb+pc total power
disp(' Totale Power Dissipated is = '+string(p)+' Watt');
// p 25 2.8
|
