EBK ELECTRIC CIRCUITS10th EditionRiedel Publisher: YUZUISBN: 8220100801792
EBK ELECTRIC CIRCUITS
Solutions for EBK ELECTRIC CIRCUITS
Problem 1P:
There are approximately 260 million passenger vehicles registered in the United States. Assume that...Problem 2P:
A hand-held video player displays 480 × 320 picture elements (pixels) in each frame of the video....Problem 3P:
The 16 gigabyte (GB = 230 bytes) flash memory chip for an MP3 player is 11 mm by 15 mm by 1 mm. This...Problem 4P:
The line described in Assessment Problem 1.7 is 845 mi in length. The line contains four conductors,...Problem 5P:
One liter (L) of paint covers approximately of wall. How thick is the layer before it dries? (Hint:...Problem 6P:
Some species of bamboo can grow (250 mm/day). Assume individual cells in the plant are 10 µm...Problem 7P:
There is no charge at the upper terminal of the element in Fig. 1.5 for t < 0. At t = 0 a current of...Problem 8P:
The current entering the upper terminal of Fig. 1.5 is
i = 20 cos 5000t A.
Assume the charge at the...Problem 10P:
In electronic circuits it is not unusual to encounter currents in the microampere range. Assume a 35...Problem 11P:
How much energy is imparted to an electron as it flows through a 6 V battery from the positive to...Problem 12P:
The references for the voltage and current at the terminal of a circuit element are as shown in Fig....Problem 13P:
Repeat Problem 1.12 with a voltage of −60 V.
1.12 The references for the voltage and current at the...Problem 15P:
When a car has a dead battery, it can often be started by connecting the battery from another car...Problem 17P:
One 12 V battery supplies 100 mA to a boom box. How much energy does the battery supply in 4 h?
Problem 19P:
The voltage and current at the terminals of the circuit element in Fig. 1.5 are zero for t < 0. For...Problem 21P:
The voltage and current at the terminals of the circuit element in Fig. 1.5 are zero for t < 0. For...Problem 22P:
The voltage and current at the terminals of the circuit element in Fig. 1.5 are zero for t < 0. For...Problem 23P:
The voltage and current at the terminals of the circuit element in Fig. 1.5 are zero for t < 0 and t...Problem 24P:
The voltage and current at the terminals of the circuit element in Fig. 1.5 are zero for t < 0. For...Problem 25P:
The voltage and current at the terminals of the element in Fig. 1.5 are
Find the maximum value of...Problem 26P:
The voltage and current at the terminals of an automobile battery during a charge cycle are shown in...Problem 27P:
The voltage and current at the terminals of the circuit element in Fig. 1.5 are shown in Fig....Problem 28P:
An industrial battery is charged over a period of several hours at a constant voltage of 120 V....Problem 29P:
The numerical values for the currents and voltages in the circuit in Fig. P1.29 are given in Table...Problem 30P:
The numerical values of the voltages and currents in the interconnection seen in Fig. P1.31 are...Problem 31P:
Assume you are an engineer in charge of a project and one of your subordinate engineers reports that...Problem 32P:
The voltage and power values for each of the elements shown in Fig. P1.30 are given in Table...Problem 33P:
The current and power for each of the interconnected elements in Fig. P1.32 is measured. The values...Browse All Chapters of This Textbook
Chapter 1 - Circuit VariablesChapter 1.2 - The International System Of UnitsChapter 1.5 - The Ideal Basic Circuit ElementChapter 1.6 - Power And EnergyChapter 2 - Circuit ElementsChapter 2.1 - Voltage And Current SourcesChapter 2.2 - Electrical Resistance (ohm’s Law)Chapter 2.4 - Kirchhoff’s LawsChapter 2.5 - Analysis Of A Circuit Containing Dependent SourcesChapter 3 - Simple Resistive Circuits
Chapter 3.2 - Resistors In ParallelChapter 3.3 - The Voltage-divider And Current-divider CircuitsChapter 3.4 - Voltage Division And Current DivisionChapter 3.5 - Measuring Voltage And CurrentChapter 3.6 - Measuring Resistance—the Wheatstone BridgeChapter 3.7 - Delta-to-wye (pi-to-tee) Equivalent CircuitsChapter 4 - Techniques Of Circuit AnalysisChapter 4.2 - Introduction To The Node-voltage MethodChapter 4.3 - The Node-voltage Method And Dependent SourcesChapter 4.4 - The Node-voltage Method: Some Special CasesChapter 4.5 - Introduction To The Mesh-current MethodChapter 4.6 - The Mesh-current Method And Dependent SourcesChapter 4.7 - The Mesh-current Method: Some Special CasesChapter 4.8 - The Node-voltage Method Versus The Mesh-current MethodChapter 4.9 - Source TransformationsChapter 4.10 - Thévenin And Norton EquivalentsChapter 4.11 - More On Deriving A Thévenin EquivalentChapter 4.12 - Maximum Power TransferChapter 5 - The Operational AmplifierChapter 5.2 - Terminal Voltages And CurrentsChapter 5.3 - The Inverting-amplifier CircuitChapter 5.4 - The Summing-amplifier CircuitChapter 5.5 - The Noninverting-amplifier CircuitChapter 5.6 - The Difference-amplifier CircuitChapter 5.7 - A More Realistic Model For The Operational AmplifierChapter 6 - Inductance, Capacitance, And Mutual InductanceChapter 6.1 - The InductorChapter 6.2 - The CapacitorChapter 6.3 - Series-parallel Combinations Of Inductance And CapacitanceChapter 6.4 - Mutual InductanceChapter 7 - Response Of First-order Rl And Rc CircuitsChapter 7.1 - The Natural Response Of An Rl CircuitChapter 7.2 - The Natural Response Of An Rc CircuitChapter 7.3 - The Step Response Of Rl And Rc CircuitsChapter 7.5 - Sequential SwitchingChapter 7.7 - The Integrating AmplifierChapter 8 - Natural And Step Responses Of Rlc CircuitsChapter 8.1 - Introduction To The Natural Response Of A Parallel Rlc CircuitChapter 8.2 - The Forms Of The Natural Response Of A Parallel Rlc CircuitChapter 8.3 - The Step Response Of A Parallel Rlc CircuitChapter 8.4 - The Natural And Step Response Of A Series Rlc CircuitChapter 9 - Sinusoidal Steady-state AnalysisChapter 9.3 - The PhasorChapter 9.4 - The Passive Circuit Elements In The Frequency DomainChapter 9.5 - Kirchhoff’s Laws In The Frequency DomainChapter 9.6 - Series, Parallel, And Delta-to-wye SimplificationsChapter 9.7 - Source Transformations And Thévenin-norton Equivalent CircuitsChapter 9.8 - The Node-voltage MethodChapter 9.9 - The Mesh-current MethodChapter 9.10 - The TransformerChapter 9.11 - The Ideal TransformerChapter 10 - Sinusoidal Steady-state Power CalculationsChapter 10.2 - Average And Reactive PowerChapter 10.3 - The Rms Value And Power CalculationsChapter 10.5 - Power CalculationsChapter 10.6 - Maximum Power TransferChapter 11 - Balanced Three-phase CircuitsChapter 11.3 - Analysis Of The Wye-wye CircuitChapter 11.4 - Analysis Of The Wye-delta CircuitChapter 11.5 - Power Calculations In Balanced Three-phase CircuitsChapter 12 - Introduction To The Laplace TransformChapter 12.4 - Functional TransformsChapter 12.5 - Operational TransformsChapter 12.7 - Inverse TransformsChapter 12.8 - Poles And Zeros Of F(s)Chapter 13 - The Laplace Transform In Circuit AnalysisChapter 13.2 - Circuit Analysis In The S DomainChapter 13.3 - ApplicationsChapter 13.4 - The Transfer FunctionChapter 13.5 - The Transfer Function In Partial Fraction ExpansionsChapter 13.7 - The Transfer Function And The Steady-state Sinusoidal ResponseChapter 14 - Introduction To Frequency Selective CircuitsChapter 14.2 - Low-pass FiltersChapter 14.3 - High-pass FiltersChapter 14.4 - Bandpass FiltersChapter 14.5 - Bandreject FiltersChapter 15 - Active Filter CircuitsChapter 15.1 - First-order Low-pass And High-pass FiltersChapter 15.2 - ScalingChapter 15.4 - Higher Order Op Amp FiltersChapter 15.5 - Narrowband Bandpass And Bandreject FiltersChapter 16 - Fourier SeriesChapter 16.2 - The Fourier CoefficientsChapter 16.3 - The Effect Of Symmetry On The Fourier CoefficientsChapter 16.4 - An Alternative Trigonometric Form Of The Fourier SeriesChapter 16.5 - An ApplicationChapter 16.6 - Average-power Calculations With Periodic FunctionsChapter 16.8 - The Exponential Form Of The Fourier SeriesChapter 16.9 - Amplitude And Phase SpectraChapter 17 - The Fourier TransformChapter 17.2 - The Convergence Of The Fourier IntegralChapter 17.3 - Using Laplace Transforms To Find Fourier TransformsChapter 17.6 - Operational TransformsChapter 17.7 - Circuit ApplicationsChapter 17.8 - Parseval’s TheoremChapter 18 - Two-port CircuitsChapter 18.2 - The Two-port ParametersChapter 18.3 - Analysis Of The Terminated Two-port CircuitChapter 18.4 - Interconnected Two-port Circuits
Book Details
Electric Circuits, Tenth Edition, is designed for use in a one or two-semester Introductory Circuit Analysis or Circuit Theory Course taught in Electrical or Computer Engineering Departments. This title is also suitable for readers seeking an introduction
Sample Solutions for this Textbook
We offer sample solutions for EBK ELECTRIC CIRCUITS homework problems. See examples below:
Chapter 1, Problem 1PGiven data: Refer to Figure P2.1 in the textbook for required data. Description: All the sources in...Given data: Refer to Figure given in the textbook. The voltage delivered by the source is 120 V....Chapter 4, Problem 1PGiven data: Refer to Figure P5.1 in the textbook for the ideal op amp circuit. Discussion: The five...Given data: Refer to the given figure in the respective question for the triangular current pulse....PSPICE Circuit: Refer to Figure P7.1 in the textbook. Draw the given circuit diagram in PSPICE as...Given data: Refer to Figure given in the textbook. The circuit parameters are given as follows:...Given data: The given sinusoidal current is, i(t)=125cos(800t+36.87°) mA (1) Formula used: Consider...
Given data: Refer to given figure in the textbook. The voltage and current expressions are,...Given data: Consider the set of voltages. va=137cos(ωt+63°) V (1) vb=137cos(ωt−57°) V (2)...Given data: f(t)={0, t≤05t, 0 s≤t≤10 s−5t+100, 10 s≤t≤30 s−50, 30 s≤t≤40 s2.5t−150, 40 s≤t≤60 s0, 60...Given data: Refer to the given circuit in textbook. The inductor current is a function of terminal...Given data: Refer to given figure in the textbook. Formula used: Write the expression to calculate...Given data: The value of capacitor C is 750 nF. The value of passband gain is 10 dB. Cutoff...Calculation: Consider that the expression for the fundamental frequency ω0. ω0=2πT (1) Substitute 8...Given data: Refer to Figure given in the textbook. Formula used: Write the general expression for...Given data: Refer to given figure in the textbook. Formula used: Write the expression to find...
More Editions of This Book
Corresponding editions of this textbook are also available below:
ELECTRIC CIRCUITS
12th Edition
ISBN: 9780137648375
ELECTRIC CIRCUITS-MODIFIED ACCESS
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ELECTRIC CIRCUITS-TEXT
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