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001476411 001__ 1476411
001476411 003__ OCoLC
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001476411 019__ $$a1396063821$$a1396896342
001476411 020__ $$a9783031363641$$q(electronic bk.)
001476411 020__ $$a3031363647$$q(electronic bk.)
001476411 020__ $$z3031363639
001476411 020__ $$z9783031363634
001476411 0247_ $$a10.1007/978-3-031-36364-1$$2doi
001476411 035__ $$aSP(OCoLC)1395886149
001476411 040__ $$aYDX$$beng$$cYDX$$dGW5XE$$dQGK$$dEBLCP
001476411 049__ $$aISEA
001476411 050_4 $$aTK7816
001476411 08204 $$a621.38102453$$223/eng/20230912
001476411 1001_ $$aSuits, Bryan H.,$$d1954-
001476411 24510 $$aElectronics for physicists :$$ban introduction /$$cBryan H. Suits.
001476411 250__ $$a2nd ed.
001476411 260__ $$aCham :$$bSpringer,$$c2023.
001476411 300__ $$a1 online resource
001476411 336__ $$atext$$btxt$$2rdacontent
001476411 337__ $$acomputer$$bc$$2rdamedia
001476411 338__ $$aonline resource$$bcr$$2rdacarrier
001476411 4901_ $$aUndergraduate Lecture Notes in Physics
001476411 504__ $$aIncludes bibliographical references and index.
001476411 5050_ $$aIntro -- Preface -- Contents -- 1 The Basics -- 1.1 Voltage and Current -- 1.2 Simple Devices -- 1.3 Kirchhoff's Laws -- 1.4 Resistors in Series -- 1.5 Resistors in Parallel -- 1.6 Effective Resistance -- 1.6.1 Resistors in Parallel-Notation -- 1.7 Solving Circuits with Circuit Reduction -- 1.8 Solving Circuits with Algebra -- 1.8.1 Branch and Mesh Currents -- 1.8.2 Example-Using Kirchhoff's Laws -- 1.8.3 Nodal Analysis -- 1.9 The Ideal Current Source -- 1.10 The Ground and Common Connections -- 1.11 Multiple Sources-The Superposition Theorem -- 1.12 Electrical Power
001476411 5058_ $$a1.13 Additional Application-The Kelvin-Varley Divider -- 1.14 Problems -- 2 Additional Theorems -- 2.1 Thevenin and Norton Equivalents -- 2.1.1 Determining the Thevenin and/or Norton Parameters -- 2.1.2 How Is This Used for Circuit Reduction? -- 2.1.3 Equivalent for an Infinite Array of Resistors -- 2.2 The Wheatstone Bridge -- 2.2.1 Wheatstone Bridge "Hieroglyphics" -- 2.3 The Reciprocity Theorem -- 2.3.1 Example-R-2R Ladder with Sources -- 2.4 Delta-Y Conversion -- 2.5 The Kelvin Bridge -- 2.5.1 Additional Application-Resistivity of Lamellae -- 2.6 Problems -- References -- 3 Complex Impedances
001476411 5058_ $$a3.1 What is a Linear Device? -- 3.2 Some Vocabulary -- 3.3 Passive Linear Circuit Elements with Two Leads -- 3.4 Idealized Sources -- 3.5 RC and L/R Time Constants -- 3.5.1 RC Time Constant Example -- 3.6 Capacitors and Inductors with Sinusoidal Sources -- 3.7 Superposition and Complex Impedances -- 3.8 Series and Parallel Capacitors and Inductors -- 3.9 Comments About Complex Arithmetic -- 3.10 Solving Circuits Using Complex Impedances -- 3.11 AC Power -- 3.12 Condenser Microphones -- 3.13 Problems -- 4 More on Capacitors and Inductors -- 4.1 Real Capacitors and Inductors
001476411 5058_ $$a4.2 Measuring Capacitors and Inductors -- 4.3 Capacitive Position Sensors -- 4.4 A Simple Circuit for Measuring Inductors -- 4.5 Switched Capacitor Methods -- 4.6 Charging a Capacitor Efficiently -- 4.7 Mutual Inductance and Transformers -- 4.8 The Dot Convention for Transformers -- 4.9 Inductive Position Sensors -- 4.10 RLC Circuits -- 4.11 Cable Models -- 4.11.1 Cable Impedance -- 4.11.2 Signal Speed in a Cable -- 4.11.3 Impedance of Finite Cables -- 4.12 Capacitor and Inductor Labels -- 4.13 Duality -- 4.14 Problems -- References -- 5 The Laplace Transform -- 5.1 The Transform
001476411 5058_ $$a5.2 Laplace Transform Example 1 -- 5.2.1 Method I -- 5.2.2 Method II -- 5.3 Laplace Transform Example 2 -- 5.4 Laplace Transform Example 3 -- 5.5 Comment on Partial Fractions -- 5.6 Poles and Zeros -- 5.7 Problems -- 6 Diodes -- 6.1 Semiconductor Diodes -- 6.2 Diode Models -- 6.2.1 Piece-Wise Linear Diode Models -- 6.2.2 An Analytic Model for the Semiconductor Diode -- 6.3 Solving Circuits with Diodes -- 6.3.1 The Ideal Diode -- 6.3.2 Graphical Solutions -- 6.4 Diode Ratings -- 6.5 Diode Capacitance and Response Time -- 6.6 Specialty and Other Diodes -- 6.7 Problems -- 7 FETs
001476411 506__ $$aAccess limited to authorized users.
001476411 520__ $$aThis book provides undergraduate physics majors and students of related sciences with a sound understanding of basic electronics and how it is used in the physical sciences. While today few science students go on to careers that demand an ability to design and build electronic circuits, many will use and rely on electronics. As scientists, they will require an appropriate level of fundamental knowledge that enables them, for example, to understand what electronic equipment is doing, to correctly interpret the measurements obtained, and to appreciate the numerous links between electronics and how it is practiced and other areas of science. Discussing electronics in the broader context and from the point of view of the scientist, this book is intended for students who are not planning to become electronics specialists but who will use electronics. It has been written in a relatively informal style and includes many detailed examples, as well as some outside the box material, including some ideas from quantum computing, to inspire thought and creativity. A selection of relevant exercises is included at the end of each chapter. In the updated second edition, some sections are clarified and end-of-chapter problems are added. It includes an additional chapter on quantum logic/computing.
001476411 650_0 $$aElectronics.
001476411 655_0 $$aElectronic books.
001476411 77608 $$iPrint version: $$z3031363639$$z9783031363634$$w(OCoLC)1381184045
001476411 830_0 $$aUndergraduate lecture notes in physics.
001476411 852__ $$bebk
001476411 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-3-031-36364-1$$zOnline Access$$91397441.1
001476411 909CO $$ooai:library.usi.edu:1476411$$pGLOBAL_SET
001476411 980__ $$aBIB
001476411 980__ $$aEBOOK
001476411 982__ $$aEbook
001476411 983__ $$aOnline
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