Loose Leaf for Engineering Circuit Analysis Format: Loose-leaf
9th Edition
ISBN: 9781259989452
Author: Hayt
Publisher: Mcgraw Hill Publishers
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Chapter 5, Problem 67E
(a)
To determine
Change the value of the
(b)
To determine
Find value of load resistor.
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Using the voltage divider rule or Kirchhoff's voltage law, determine the unknown voltage for the configuration in Fig. 5.118. Do not calculate the current!
Chapter 5 Solutions
Loose Leaf for Engineering Circuit Analysis Format: Loose-leaf
Ch. 5.1 - For the circuit of Fig. 5.4, use superposition to...Ch. 5.2 - For the circuit of Fig. 5.7, use superposition to...Ch. 5.2 - For the circuit of Fig. 5.18, compute the current...Ch. 5.2 - For the circuit of Fig. 5.20, compute the voltage...Ch. 5.3 - Using repeated source transformations, determine...Ch. 5.3 - Use Thvenins theorem to find the current through...Ch. 5.3 - Determine the Thvenin and Norton equivalents of...Ch. 5.3 - Find the Thvenin equivalent for the network of...Ch. 5.3 - Find the Thvenin equivalent for the network of...Ch. 5.4 - Consider the circuit of Fig. 5.43. FIGURE 5.43...
Ch. 5.5 - Prob. 11PCh. 5 - Linear systems are so easy to work with that...Ch. 5 - Prob. 2ECh. 5 - Prob. 3ECh. 5 - (a) Employ superposition to determine the current...Ch. 5 - (a) Using superposition to consider each source...Ch. 5 - (a) Determine the individual contributions of each...Ch. 5 - (a) Determine the individual contributions of each...Ch. 5 - After studying the circuit of Fig. 5.53, change...Ch. 5 - Consider the three circuits shown in Fig. 5.54....Ch. 5 - (a) Using superposition, determine the voltage...Ch. 5 - Employ superposition principles to obtain a value...Ch. 5 - (a) Employ superposition to determine the...Ch. 5 - Perform an appropriate source transformation on...Ch. 5 - (a) For the circuit of Fig. 5.59, plot iL versus...Ch. 5 - Determine the current labeled I in the circuit of...Ch. 5 - Verify that the power absorbed by the 7 resistor...Ch. 5 - (a) Determine the current labeled i in the circuit...Ch. 5 - (a) Using repeated source transformations, reduce...Ch. 5 - Prob. 19ECh. 5 - (a) Making use of repeated source transformations,...Ch. 5 - Prob. 21ECh. 5 - (a) With the assistance of source transformations,...Ch. 5 - For the circuit in Fig. 5.67 transform all...Ch. 5 - Prob. 24ECh. 5 - (a) Referring to Fig. 5.69, determine the Thevenin...Ch. 5 - (a) With respect to the circuit depicted in Fig....Ch. 5 - (a) Obtain the Norton equivalent of the network...Ch. 5 - (a) Determine the Thevenin equivalent of the...Ch. 5 - Referring to the circuit of Fig. 5.71: (a)...Ch. 5 - Prob. 30ECh. 5 - (a) Employ Thvenins theorem to obtain a...Ch. 5 - Prob. 32ECh. 5 - Determine the Norton equivalent of the circuit...Ch. 5 - For the circuit of Fig. 5.75: (a) Employ Nortons...Ch. 5 - (a) Obtain a value for the Thvenin equivalent...Ch. 5 - Prob. 36ECh. 5 - Obtain a value for the Thvenin equivalent...Ch. 5 - With regard to the network depicted in Fig. 5.79,...Ch. 5 - Determine the Thvenin and Norton equivalents of...Ch. 5 - Determine the Norton equivalent of the circuit...Ch. 5 - Prob. 41ECh. 5 - Determine the Thvenin and Norton equivalents of...Ch. 5 - Prob. 43ECh. 5 - Prob. 44ECh. 5 - Prob. 45ECh. 5 - (a) For the simple circuit of Fig. 5.87, find the...Ch. 5 - For the circuit drawn in Fig. 5.88, (a) determine...Ch. 5 - Study the circuit of Fig. 5.89. (a) Determine the...Ch. 5 - Prob. 49ECh. 5 - Prob. 50ECh. 5 - With reference to the circuit of Fig. 5.91, (a)...Ch. 5 - Prob. 52ECh. 5 - Select a value for RL in Fig. 5.93 such that it...Ch. 5 - Determine what value of resistance would absorb...Ch. 5 - Derive the equations required to convert from a...Ch. 5 - Convert the - (or "-") connected networks in Fig....Ch. 5 - Convert the Y-(or T-) connected networks in Fig....Ch. 5 - For the network of Fig. 5.97, select a value of R...Ch. 5 - For the network of Fig. 5.98, select a value of R...Ch. 5 - Prob. 60ECh. 5 - Calculate Rin as indicated in Fig.5.100. FIGURE...Ch. 5 - Employ Y conversion techniques as appropriate to...Ch. 5 - Prob. 63ECh. 5 - (a) Use appropriate techniques to obtain both the...Ch. 5 - (a) For the network in Fig. 5.104, replace the...Ch. 5 - Prob. 66ECh. 5 - Prob. 67ECh. 5 - A 2.57 load is connected between terminals a and...Ch. 5 - A load resistor is connected across the open...Ch. 5 - A backup is required for the circuit depicted in...Ch. 5 - (a) Explain in general terms how source...Ch. 5 - The load resistor in Fig. 5.108 can safely...Ch. 5 - Prob. 74ECh. 5 - As part of a security system, a very thin 100 ...Ch. 5 - With respect to the circuit in Fig. 5.90, (a)...
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- For the circuit in Fig. 5.88, composed of standard values: a. Which resistor will have the most impact on the total resistance? b. On an approximate basis, which resistors can be ignored when determining the total resistance? c. Find the total resistance, and comment on your results for parts (a) and (b).arrow_forward30 V 4- Referring to the circuit of Fig. 5.5a, determine the maximum positive current to which the source Iy can be set before any resistor exceeds its power rating and overheats. 100 2 64 2 6 Varrow_forwardUsing the voltage divider rule or Kirchhoff's voltage law, determine the unknown voltages for the configurations in Fig. 5.119. Do not calculate the current! E₁ + • 50 V + wwwwww 3.3 ΚΩ + V = www 6.8 ΚΩ 4.7 ΚΩ 10 ΚΩ 30 V Ο + Vx E + 2 Ω 68 Ω 100 Ω Μ W www +1 + 1 + 1000 V | UNIVERSarrow_forward
- Using the voltage divider rule or Kirchhoff's voltage law, determine the unknown voltages for the configurations in Fig. 5.119. Do not calculate the current! E₁ + 50 V + E • 3.3 ΚΩ + Vi 6.8 ΚΩ · 4.7 ΚΩ WHI • 10 ΚΩ 30 V 0 + Vx E HI 2 Ω 68 Ω 100 Ω Μ + + 1000 V - UNIVERSarrow_forwarduse Superposition principle: a) determine the contribution from the voltage source alone. b) determine the contribution from the current source alone. c)determine the total current with both sources active.arrow_forwardFor the configuration in fig . 5.116, with standard resistor values : by inspection , which resistor will receive the largest share of the applied voltage ? Why? how much larger will voltage V3 be compared to V2 and V1 Find the voltage across the largest resistor using the the voltage divider rule Find the voltage across the series combination of resistors R2 and R3arrow_forward
- Homework: Obtain vo in the circuit of the following figure. 5.3 30 V 20 V 4 k2 2 k2 3 k2 Answer 20 V wwarrow_forward*13. For the network of Fig. 5.153: a. Calculate IB, Ic, and re. b. Determine Z; and Z„. c. Calculate A,. d. Determine the effect of r, 30 kN on Ay. 12 V 5.6 k2 oVo B= 100 8os = 25 µS 390 k2 %3D Zi 8 V FIG. 5.153arrow_forwardFor each configuration in Fig. 5.85, find the individual (not combinations of) elements (voltages sources and/or resistors) that are in series. If necessary, use the fact that elements in series have the same current. Simply list those that satisfy the conditions for a series relationship.arrow_forward
- *27. For the network of Fig. 5.96, determine the voltages: a. Va, Vs, Ve, Và. v. b. Vab. Váe Ve c. Vae. V 2 kfl 3 kl 47 V 20 V 4 kfn FIG. 5.96arrow_forwardLMH_chapter3-part 1-homework [Protected View] PowerPoint ĐĂNG PHẠM HỒNG File Home Insert Design Transitions Animations Slide Show Review View Help Tell me what you want to do & Share 6. HW18 5.20 In the circuit of Fig. 5.59, calculate v, of v; = 0. HW20 8 ka 4 4 ka 5.32 Calculate iz and v, in the circuit of Fig. 5.70. Find the power dissipated by the 30-kN resistor. 7 HW19 3.24 In the circuit shown in Fig 5.62, find k in the voltage transfer flunction ,- , 48 k2 ww ww 8 4 mV 50 k2 HW20 60 k2 30 Ω 5.32 Calculate i, and e, in the circuit of Fig. 5.70. Find the power dissipated by the 30 kl resistor 10 kΩ 4 mv ( 50 ka 60 30 k2 10 k2 9. HW21 5.33 Re:kn lo the p m tineuit in Fip 571 Caknulale4 ud the pomer disupated by dhe kil resistor. 1 kI 8 3 ma O ww- wwarrow_forward3. Calculate IT, R₁ and the individual voltage and current in the circuit of Figure 5.2. Figure 5.2 90 V R₁ = 300 Q ww R 2 300 Qarrow_forward
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Kirchhoff's Rules of Electrical Circuits; Author: Flipping Physics;https://www.youtube.com/watch?v=d0O-KUKP4nM;License: Standard YouTube License, CC-BY