From Physics to Electric Circuits — 2nd ed. 2019 (English)
- New search for: Makarov, Sergey N.
- New search for: Ludwig, Reinhold
- New search for: Bitar, Stephen J.
- New search for: Makarov, Sergey N.
- New search for: Ludwig, Reinhold
- New search for: Bitar, Stephen J.
In:
Practical Electrical Engineering
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1-25
;
2019
- Article/Chapter (Book) / Electronic Resource
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Title:From Physics to Electric Circuits
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Contributors:
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Published in:
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Edition:2nd ed. 2019
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Publisher:
- New search for: Springer International Publishing
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Place of publication:Cham
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Publication date:2019-01-01
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Size:25 pages
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ISBN:
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DOI:
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Type of media:Article/Chapter (Book)
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Type of material:Electronic Resource
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Language:English
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Keywords:Electricity , Electric field intensity , Electric field , Electric field magnitude , Lines of force , Electric potential , Electric voltage , Line integral , Contour integral , Conservative field , Potential energy of the electric field , Voltage drop , Voltage difference , Ground reference , Neutral conductor , Common conductor , Voltage versus ground , Equipotential lines , Volumetric charge density , Surface charge density , Gauss’ theorem , Equipotential surface , Self-capacitance , Electrostatic discharge , Effect of electrostatic discharge on integrated circuits , Boundary element method , Electric current density , Material conductivity , Transmission line , Direct current (DC) , Electric load , Ideal wire , Kirchhoff’s voltage law (KVL) , Magnetic field , Magnetic-field intensity , Ampere’s law , Cross (vector) product , Poynting vector , Poynting theorem , Wireless communications , Wireless power transfer , Fluid mechanics analogy of an electric circuit , Hydraulic analogy of an electric circuit , Voltage source (hydraulic analogy) , Resistance (hydraulic analogy) , Current source (hydraulic analogy) , Capacitance (hydraulic analogy) , Inductance (hydraulic analogy) , Electric transformer (hydraulic analogy) , NMOS transistor (hydraulic analogy) , Bipolar junction transistor (hydraulic analogy)
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Source:
Table of contents eBook
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 1
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From Physics to Electric CircuitsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 29
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Major Circuit ElementsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 89
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Circuit Laws and Networking TheoremsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 143
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Circuit Analysis and Power TransferMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 201
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Operational Amplifier and Amplifier ModelsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 271
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Dynamic Circuit ElementsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 319
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Transient Circuit FundamentalsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 401
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Steady-State AC Circuit FundamentalsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 445
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Filter Circuits: Frequency Response, Bode Plots, and Fourier TransformMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 493
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Second-Order RLC CircuitsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 535
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AC Power and Power DistributionMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019
- 589
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Electric Transformer and Coupled InductorsMakarov, Sergey N. / Ludwig, Reinhold / Bitar, Stephen J. et al. | 2019