Homework Answers
For the circuit shown in the Figurel, find 1 3k 6k R4 R1 R2 4k R5...
For the circuit shown in the Figurel, find 1 3k 6k R4 R1 R2 4k R5 12k R6 12k R3 2k 810 Figure 1
Figure 4. (a) The equivalent resistance of the network shown in figure 4(A) is 2KΩ. (True,...
Figure 4. (a) The equivalent
resistance of the network shown in figure 4(A) is 2KΩ. (True,
False)
b) The equivalent resistance of the network shown in figure 4(B)
is 27/17Ω [Hint see figure 4(B) and]
(B) 1 ΚΩ 1 ΚΩ 1 ΚΩ - R2 w c 1.00 + 3100 im IR 3.00 7 Figure 4: 4. (a) The equivalent resistance of the network shown in figure 4(A) is 2K12 (True, False) (b) The equivalent resistance of the network shown in...
Question 9: Circuit Analysis R4 R2 W R1 V6 R5 R3 (+) R7 8 2. If...
Question 9: Circuit Analysis R4 R2 W R1 V6 R5 R3 (+) R7 8 2. If Vi 6 V and V6 18 V, find Let Ri, R2, and R5 4 0, but R3, R4, and R7 the value of I7.
Given the circuit on the diagram below with R1 = 6 kΩ, R2 = 13 kΩ,...
Given the circuit on the diagram below with R1 = 6 kΩ, R2 = 13
kΩ, R3 = 11 kΩ and R4 = 9 kΩ.
Using current
and voltage division, find I1, I2, I3, and I4 , and also
the voltages across the resistors (V1, V2, V3, and V4) when:
Vs= 6 − 3cos100t V
Consider the circuit shown where V=30 Volts and R1 = R2 = R3 = R4 =...
Consider the circuit shown where V=30 Volts and R1 = R2 = R3 = R4 = R5 = R6 = 5.2. Riş V R2 W-WWW R4 N WW-WW RO R3 A) Find the equivalent resistance of the circuit. Req Ω B) Find the current through the battery. I = A
R1 R5 R3 R6 R2 R4 R7 AMPS (A) OHMS (S2) WATTS (W) VOLTS (V) ET-...
R1 R5 R3 R6 R2 R4 R7 AMPS (A) OHMS (S2) WATTS (W) VOLTS (V) ET- IT 4A R1 .000084012 R2-120,000m2P2 R3- 21,500m2 R4 = .0385kf2 Rs= 150Ω 12- 13 = 15 = P6- R7 60Ω
RESISTOR VALUES: R1=1k, R2=2k, R3=3k, R4=3.9k, R5=5.1k, R6=6.2k, R7=6.8K NUMBERS: 2, 4, & 5 1 Short AB, as shown in...
RESISTOR VALUES: R1=1k, R2=2k, R3=3k, R4=3.9k, R5=5.1k, R6=6.2k,
R7=6.8K
NUMBERS: 2, 4, & 5
1 Short AB, as shown in Figure 3 - 2 (a). Use mesh analysis to calculate the voltage across each resistor and the current through AB, IAB 2. Leave AB open, as shown in Figure 3 - 2 (b). Use nodal analysis to calculate the voltage across each resistor as well as the voltage across AB, VAB 3. Find Thevenin's and Norton's Equivalent using the results...
Find the equivalent resistance of the circuit as shown in the diagram below; where, R1 =...
Find the equivalent resistance
of the circuit as shown in the diagram below; where, R1 = 4 ?, R2 =
2 ?, R3 = 4 ?, R4 = 3 ?, R5 = 3 ?, R6 = 1 ?, and R7 = 3 ?.
The emfs in the figure below are 1 = 5.00 V and 2 = 18.0 V. The...
The emfs in the figure below are 1 = 5.00 V
and 2 = 18.0 V. The resistances are
R1 = 18.0 Ω,
R2 = 32.0 Ω,
R3 = 45.5 Ω, and
R4 = 56.0 Ω.
Find the magnitude of the current in each resistor when the
switch is in the following states.
(a) open
I1 =
A
I2 =
A
I3 =
A
I4 =
A
(b) closed
I1 =
A
I2 =
A
I3 =
A
I4 =
A...
In the circuit shown in the figure below, determine the current in each resistor at the following times. Use r1, r2, an...
In the circuit shown in the figure below, determine the current
in each resistor at the following times. Use r1, r2, and r3 for
R1, R2, and
R3, respectively, and use E for .
(a) at the moment the switch is closed
I1 =
I2 =
I3 =
(b) a long time after the switch is closed
I1 =
I2 =
I3 =
After the switch has been closed a long time, and reopened,
determine each current at the following...
For the circuit shown in the Figurel, find 1 3k 6k R4 R1 R2 4k R5 12k R6 12k R3 2k 810 Figure 1
Figure 4. (a) The equivalent
resistance of the network shown in figure 4(A) is 2KΩ. (True,
False)
b) The equivalent resistance of the network shown in figure 4(B)
is 27/17Ω [Hint see figure 4(B) and]
(B) 1 ΚΩ 1 ΚΩ 1 ΚΩ - R2 w c 1.00 + 3100 im IR 3.00 7 Figure 4: 4. (a) The equivalent resistance of the network shown in figure 4(A) is 2K12 (True, False) (b) The equivalent resistance of the network shown in...
Question 9: Circuit Analysis R4 R2 W R1 V6 R5 R3 (+) R7 8 2. If Vi 6 V and V6 18 V, find Let Ri, R2, and R5 4 0, but R3, R4, and R7 the value of I7.
Given the circuit on the diagram below with R1 = 6 kΩ, R2 = 13
kΩ, R3 = 11 kΩ and R4 = 9 kΩ.
Using current
and voltage division, find I1, I2, I3, and I4 , and also
the voltages across the resistors (V1, V2, V3, and V4) when:
Vs= 6 − 3cos100t V
Consider the circuit shown where V=30 Volts and R1 = R2 = R3 = R4 = R5 = R6 = 5.2. Riş V R2 W-WWW R4 N WW-WW RO R3 A) Find the equivalent resistance of the circuit. Req Ω B) Find the current through the battery. I = A
R1 R5 R3 R6 R2 R4 R7 AMPS (A) OHMS (S2) WATTS (W) VOLTS (V) ET- IT 4A R1 .000084012 R2-120,000m2P2 R3- 21,500m2 R4 = .0385kf2 Rs= 150Ω 12- 13 = 15 = P6- R7 60Ω
RESISTOR VALUES: R1=1k, R2=2k, R3=3k, R4=3.9k, R5=5.1k, R6=6.2k,
R7=6.8K
NUMBERS: 2, 4, & 5
1 Short AB, as shown in Figure 3 - 2 (a). Use mesh analysis to calculate the voltage across each resistor and the current through AB, IAB 2. Leave AB open, as shown in Figure 3 - 2 (b). Use nodal analysis to calculate the voltage across each resistor as well as the voltage across AB, VAB 3. Find Thevenin's and Norton's Equivalent using the results...
Find the equivalent resistance
of the circuit as shown in the diagram below; where, R1 = 4 ?, R2 =
2 ?, R3 = 4 ?, R4 = 3 ?, R5 = 3 ?, R6 = 1 ?, and R7 = 3 ?.
The emfs in the figure below are 1 = 5.00 V
and 2 = 18.0 V. The resistances are
R1 = 18.0 Ω,
R2 = 32.0 Ω,
R3 = 45.5 Ω, and
R4 = 56.0 Ω.
Find the magnitude of the current in each resistor when the
switch is in the following states.
(a) open
I1 =
A
I2 =
A
I3 =
A
I4 =
A
(b) closed
I1 =
A
I2 =
A
I3 =
A
I4 =
A...
In the circuit shown in the figure below, determine the current
in each resistor at the following times. Use r1, r2, and r3 for
R1, R2, and
R3, respectively, and use E for .
(a) at the moment the switch is closed
I1 =
I2 =
I3 =
(b) a long time after the switch is closed
I1 =
I2 =
I3 =
After the switch has been closed a long time, and reopened,
determine each current at the following...
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