g.
FIG. 2.l 68 FIG. 2.169
Problems 22 through 24. Problem 24.
25. For the network of Fig. 2.170, sketch Va and determine Vdc.
@For the network of Fig. 2.171, sketch v0 and 1);.
— 120 V (rms)
FIG. 2.110 FIG. 2.171
Problem 25. * Problem 26.
*27. a. Given Pm
.Determine Val and V02 for the networks of Fig. 2.159.
Si 4.7 kg
FIG. 2.159
Problem 9.
1.4 Parallel and Series-Parallel Conﬁgurations
10. Determine V0 and ID for the networks of Fig. 2.160.
FIG. 2.160
Problems 10 and 50.
Determine V0 and I for the network
1'
FIG. 2.162 FIG. 2.163
Problem 12. Problems 13 and 51.
AND/0|! Gales
l4. Determine V0 for the network of Fig. 2.39 with 0 V on both inputs.
IS. Determine V0 for the network of Fig. 2.39 with 10 V on both inputs.
16. Determine V0 for the network of Fig.
50.
51.
52.
l.l5
53.
*54.
55.
56.
57.
Jess.
IJG
59.
\/ 60.
61.
*62.
63.
*64.
For the diode of Fig. 1.37 determine the level of IR at room temperature (25°C) and the boiling
point of water (100°C). Is the change significant? Does the level just about dou