02009nam a2200289Ia 4500999001300000001000800013003000400021005001700025008004100042020001800083028003700101040002400138082001900162100002500181245002500206250000900231260004600240300000800286500032900294504056100623650001501184942001201199952012301211952013501334952012701469952012301596 c370d3700001169OSt20190221113248.0170602s9999 xx 000 0 und d a9789332550551 q2016bAllied Informatics, Jaipur bEnglishaBSDUcBSDU a621.319 2bHUE aHuelsman, Lawrence P 0aBasic Circuit Theory a3rd  bPearson Educationa New Delhic2015,c2015 a756 aFor a one-year beginning either sophomore or junior year of the undergraduate electrical or computer engineering curriculum. Written to provide an introduction to the basic concepts of modern circuit theory. This text is designed to motivate students to learn through learning objectives, review questions and discussions. aContents: 1. Introduction. 2. Resistors, Sourses, and Simple Circuits. 3. Resistance Networks. 4. Capacitors and Inductors. 5. First-Order Circuits. 6. Second-Order aqnd Higher-Order Circuits. 7. Sinusoidal Steady-State Analysis-I. 8. Sinusoidal Steady-State Analysis-II. 9. The Laplace Transform-I. 10. The Laplace Transform-II. 11. Two-Port Network Parameters. 12. The Fourier Series. A. Matrices and Determinants. B. Complex Numbers. C. Use of Spice in Circuit Analysis. Answers to Review Questions. Answers to Selected Problems. aElectrical 2ddccBK 00102ddc4070aBSDUbBSDUd2016-12-02g529.00l0o621.319 2 HUEp001169r2020-02-12 00:00:00v529.00w2017-06-02yBK 00102ddc4070aBSDUbBSDUd2016-12-02g529.00l2o621.319 2 HUEp001170r2020-02-12 00:00:00s2019-10-24v529.00w2017-06-02yBK 00102ddc40718RBaBSDUbBSDUd2016-12-02g529.00l0o621.319 2 HUEp001171r2020-02-12 00:00:00v529.00w2017-06-02yBK 00102ddc4070aBSDUbBSDUd2016-12-02g529.00l0o621.319 2 HUEp001172r2020-02-12 00:00:00v529.00w2017-06-02yBK