Principles and Applications of Electrical Engineering
6th Edition
ISBN: 9780073529592
Author: Giorgio Rizzoni Professor of Mechanical Engineering, James A. Kearns Dr.
Publisher: McGraw-Hill Education
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Chapter 3, Problem 3.34HP
To determine
The current through the resistance
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Refer to the given circuit below. Determine the equivalent resistance across terminals d and b if
R1 = 8 0
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= 6 Q
R5 = 70
%3D
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R7 = 3 0
R8 = 20
R9 = 8 Q
R10 = 8 0
R2
R3
R4
a
R5
R1
R6
R7
b
d
Rg
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R10
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R3
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R5
Vo =
the power dissipated R1=
the power dissipated R2=
the power dissipated R3-
the power diissipated R4=
the power dissipated RS
the power developed by the current sourcer
Q3. Draw the output voltage waveform for each circuit including the voltage values. (Ideal
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2.2kQ
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-30 V
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+50V
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47 (1
3.3 k
-5 V
-50V
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IN4001
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Chapter 3 Solutions
Principles and Applications of Electrical Engineering
Ch. 3 - Use node voltage analysis to find the voltages V1...Ch. 3 - Use node voltage analysis to find the voltages V1...Ch. 3 - Using node voltage analysis in the circuit of...Ch. 3 - Using node voltage analysis in the circuit of...Ch. 3 - In the circuit shown in Figure P3.5, the mesh...Ch. 3 - In the circuit shown in Figure P3.5, the source...Ch. 3 - Use nodal analysis in the circuit of Figure P3.7...Ch. 3 - Use mesh analysis in the circuit of Figure P3.7 to...Ch. 3 - Use nodal analysis in the circuit of Figure P3.9...Ch. 3 - Use nodal analysis in the circuit of Figure P3.10...
Ch. 3 - Use nodal analysis in the circuit of Figure P3.11...Ch. 3 - Find the power delivered to the load resistor R0...Ch. 3 - For the circuit of Figure P3.13, write the nodee...Ch. 3 - Using mesh analysis, find the currents i1 and i2...Ch. 3 - Using mesh analysis, find the currents i1 and i2...Ch. 3 - Using mesh analysis, find the voltage v across the...Ch. 3 - Using mesh analysis, find the currents I1,I2 and...Ch. 3 - Using mesh analysis. Find the voltage V across the...Ch. 3 - Prob. 3.19HPCh. 3 - For the circuit of Figure P3.20, use mesh analysis...Ch. 3 - In the circuit in Figure P3.21, assume the source...Ch. 3 - For the circuit of Figure P3.22 determine: a. The...Ch. 3 - Figure P3.23 represents a temperature measurement...Ch. 3 - Use nodal analysis on the circuit in Figure P3.24...Ch. 3 - Use mesh analysis to find the mesh currents in...Ch. 3 - Use mesh analysis to find the mesh currents in...Ch. 3 - Use mesh analysis to find the currents in Figure...Ch. 3 - Use mesh analysis to find V4 in Figure P3.28. Let...Ch. 3 - Use mesh analysis to find mesh currents in Figure...Ch. 3 - Use mesh analysis to find the current i in Figure...Ch. 3 - Use mesh analysis to find the voltage gain...Ch. 3 - Use nodal analysis to find node voltages V1,V2,...Ch. 3 - Use mesh analysis to find the currents through...Ch. 3 - Prob. 3.34HPCh. 3 - Prob. 3.35HPCh. 3 - Using the data of Problem 3.35 and Figure P3.35,...Ch. 3 - Prob. 3.37HPCh. 3 - Prob. 3.38HPCh. 3 - Use nodal analysis in the circuit of Figure P3.39...Ch. 3 - Prob. 3.40HPCh. 3 - Refer to Figure P3.10 and use the principle of...Ch. 3 - Use the principle of superposition to determine...Ch. 3 - Refer to Figure P3.43 and use the principle of...Ch. 3 - Refer to Figure P3.44 and use the principle of...Ch. 3 - Refer to Figure P3.44 and use the principle of...Ch. 3 - Prob. 3.46HPCh. 3 - Use the principle of super position to determine...Ch. 3 - Prob. 3.48HPCh. 3 - Use the principle of super position to determine...Ch. 3 - Use the principle of superposition to determine...Ch. 3 - Find the Thé venin equivalent of the network...Ch. 3 - Find the Thé venin equivalent of the network seen...Ch. 3 - Find the Norton equivalent of the network seen by...Ch. 3 - Find the Norton equivalent of the network between...Ch. 3 - Find the Thé venin equivalent of the network seen...Ch. 3 - Prob. 3.56HPCh. 3 - Find the Thé venin equivalent of the network seen...Ch. 3 - Find the Thé venin equivalent network seen by...Ch. 3 - Prob. 3.59HPCh. 3 - Prob. 3.60HPCh. 3 - Prob. 3.61HPCh. 3 - Find the Thé venin equivalent resistance seen...Ch. 3 - Find the Thé venin equivalent resistance seen by...Ch. 3 - Find the Thé venin equivalent network seen from...Ch. 3 - Find the Thé’cnin equivalent resistance seen by R3...Ch. 3 - Find the Norton equivalent of the network seen by...Ch. 3 - Find the Norton equivalent of the network seen by...Ch. 3 - Prob. 3.68HPCh. 3 - Find the Norton equivalent network between...Ch. 3 - Prob. 3.70HPCh. 3 - Prob. 3.71HPCh. 3 - Prob. 3.72HPCh. 3 - The Thé venin equivalent network seen by a load Ro...Ch. 3 - The Thévenin equivalent network seen by a load Ro...Ch. 3 - Prob. 3.75HPCh. 3 - Prob. 3.76HPCh. 3 - Many practical circuit elements are non-linear;...Ch. 3 - Prob. 3.78HPCh. 3 - The non-linear diode in Figure P3.79 has the i-v...Ch. 3 - Prob. 3.80HPCh. 3 - The non-linear device D in Figure P3.81 has the...Ch. 3 - Prob. 3.82HPCh. 3 - The so-called forward-bias i-v relationship for a...
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- 3-11 (a) Formulate mesh-current equations for the circuit in Figure P3-11. Arrange the results in matrix form Ax = b. (b) Solve for iA, and iB. (c) Use these results to find vx and ix. 4 ΚΩ +1 15 V 2 ΚΩ AiA 4 ΚΩ Va www 1 + Vb 2 ΚΩ www AiB 15 V FIGURE P3-11 4 ΚΩ + + 1 Vx 15 Varrow_forward500mA 200mA Solve for the value of R3 as shown in the figure. 100mA 50mA "RI 250 13: R2 R3 R4 12arrow_forward8-13 E (a) Formulate mesh-current equations for the cir- cuit in Figure P3-13. (b) Formulate node-voltage equations for the circuit in Figure P3-13. (c) Which set of equations would be easier to solve? Why? (d) Using MATLAB, find , and i, in terms of the mesh- current variables. SSarrow_forward
- For R1=285, R2=328, R3-414, R4=240, R5=160, R6-400, V1=3 V & I1=1 A in the shown circuit, using the superposition principle find the following: + V1 R5 Vo R4 + R6 w I1 R3 io R2 m ZR1 Iol (in ampere) due to V1 only= (Note that Io=Io1+Io2, where Iol is due to V1 and Io2 is due to I1) Vol (in volt) due to V1 only= (Note that Vo=Vol+Vo2, where Vol is due to V1 and Vo2 is due to I1) Io2 (in ampere) due to Il only= (Note that Io=Io1+Io2, where Iol is due to V1 and Io2 is due to I1) Vo2 (in volt) due to Il only= (Note that Vo=Vol+Vo2, where Vol is due to V1 and Vo2 is due to I1)arrow_forwardIn the series circuits, the equivalent (total) value of certain parameter is given by X = X1 + X2 + The parameter X could be %3D X3 + X4 + O a. resistance and power O b. current O C. power O d. resistancearrow_forwardRefer to the given circuit below. Determine the equivalent resistance across terminals b and d if R1 = 20 R2 = 4 0 R3 = 70 R4 = 8 0 R5 = 20 R6 = 3 0 R7 = 2 0 %3D = 2 0 a R1 R2 R3 R4 R5 R6 R7 Rg d barrow_forward
- 3-5 The following are a set of node-voltage equations; draw the circuit they represent. UB-UA R₁ + + VC-VA VC-VB R3 R₂ VB-UC-is=0 R2 VA = US + VC R4 VD = 0 =0arrow_forwardFor R1=9, R2=1, R3=1, R4=1 and 15=13.5 A in the shown circuit, use current divider to find the following: | 12 15 R2< R3 R4 i1 (in Ampere) = O a. 10.125 O b. 0.48214285714286 c. 10.125 O d. 3.375 i2 (in Ampere) = a. 5.6410714285714 b. 4.3392857142857 O c. 1.125 O d. 2.475 i3 (in ampere) = 14 (in ampere) =arrow_forwardQ5/ Determine the values of i3, v4, i5, andv6 in circuit shown in Figure + v1 12 2 18 2 a b - U4 + 18 V 20 2 i5 12 i U2 8Ω i3arrow_forward
- Construct the series-parallel circuit in below. Use R1 = 330Ω, R2 = R3 = 1kΩ using Proteus Simulation Software. Then, connect a dc voltage supply with Vs = 10V across points A and B. Measure the voltage across each resistor using a dc voltmeter. Does your observation agree with the Kirchhoff Voltage Lawarrow_forwardRefer to the given circuit below. Determine the equivalent resistance across terminals c and b if R1 = 6 0 R2 = 70 R3 = 2 0 R4 = 8 0 R5 = 70 R6 = 2 0 R7 = 2 0 Rg = 50 R9 = 40 R10 = 2 0 R2. R3 R4. a C R5 R1 R6 R, b d Rg R9 R10-arrow_forwardFor R1=17, R2=22, R3=37, R4=42, R5=50, V1=43 V and V2=20 V in the shown circuit, apply mesh analysis to find the following: RI R4 ww R3 RS R2 v2 il (in ampere)= a. 0.34652273639109 O b. 0.69304547278219 c. 1.0395682091733 O d. 0 i2 (in ampere)= a. -0.0251228226887 O b.-0.050245645377401 C. -0.065319338990621 d. -0.01507369361322 i3 (in ampere)= a. -0.084268097894793 b. -0.42134048947396 C.-0.21067024473698 d. -0.50560858736876 wwarrow_forward
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