1- In the circuit of Fig.1, assume that v₁ (t) = 10sin (4t) and v₂(t) = 20sin (4t - 30°) Determine the mesh currents i₁, iz and the current through the capacitor 1F. 192 Fig.1 1H IF 19 1492 1H 19 mw

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1- In the circuit of Fig. 1, assume that
v₁ (t) = 10sin (4t) and v₂(t) = 20sin (4t - 30°)
Determine the mesh currents 1₁, 1₂
and the current through the capacitor 1F.
2- In the circuit of Fig.2, use
mesh analysis to calculate
V and lo
41
3- In the circuit of Fig.3, find the
current 1₁, 12, 13 and the average
power absorbed by each element 40/0° V
of circuit
4- In the circuit of Fig.4, assume that
is = 3 sin10³ t, A. Find the average
power absorbed by the 500 resistor.
5- In the circuit of Fig.5,
determine the current I, and
the average power absorbed
by the 400 resistor.
Electrical Circuit Analysis.
4-30° A (4)
6- The variable resistor R in
the circuit of Fig.6 is adjusted
until it absorbed the
maximum average power.
Find R and the maximum
average power absorbed.
2
J1 Ω 3
5/0° A (4
i₂ (4)
10
wwwm
8 Ω
ww
Fig.3
292 V₂
352
Fig.1
Fig.2
A
12
1H
B
-j2 92
j4Q2
50 £2
/10 02
40 μF
Fig.4
4/0° A (4)
Fig.6
192
3V
j4Q2
m
000
1F
201
Fig.4
I –j 20 Ω
1H 192
mwww
113
mww
≥692
6Ω
20 mH
0.51,
-√292
20/90° V
10 Ω
2
-/222
www
40 Ω
Page: 1 of 1
Transcribed Image Text:1- In the circuit of Fig. 1, assume that v₁ (t) = 10sin (4t) and v₂(t) = 20sin (4t - 30°) Determine the mesh currents 1₁, 1₂ and the current through the capacitor 1F. 2- In the circuit of Fig.2, use mesh analysis to calculate V and lo 41 3- In the circuit of Fig.3, find the current 1₁, 12, 13 and the average power absorbed by each element 40/0° V of circuit 4- In the circuit of Fig.4, assume that is = 3 sin10³ t, A. Find the average power absorbed by the 500 resistor. 5- In the circuit of Fig.5, determine the current I, and the average power absorbed by the 400 resistor. Electrical Circuit Analysis. 4-30° A (4) 6- The variable resistor R in the circuit of Fig.6 is adjusted until it absorbed the maximum average power. Find R and the maximum average power absorbed. 2 J1 Ω 3 5/0° A (4 i₂ (4) 10 wwwm 8 Ω ww Fig.3 292 V₂ 352 Fig.1 Fig.2 A 12 1H B -j2 92 j4Q2 50 £2 /10 02 40 μF Fig.4 4/0° A (4) Fig.6 192 3V j4Q2 m 000 1F 201 Fig.4 I –j 20 Ω 1H 192 mwww 113 mww ≥692 6Ω 20 mH 0.51, -√292 20/90° V 10 Ω 2 -/222 www 40 Ω Page: 1 of 1
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