lkpvehicle.blogg.se

Įxa 3.13 Exa 4.3 Exa 5.2 Exa 6.1 Exa 7.1 Exa 7.2 Exa Exa Exa Exa ExaĮxa 7.8 Exa 7.9 Exa 7.10 Exa 7.11 Exa 9.2 Exa 9.3 Exa 11.1 Exa 11.2įind current flowing through all the branches of the circuit. Exa 3.4 Value of E for which power dissipation in R5 is 15W R5 is 15. Exa 3.3 Determine the equivalent series circuit. Exa 3.2 Calculate the potential difference across terminals bc. Exa 3.1 for the given circuit calculate the current flowing from the voltage source. Exa 2.7 Find A actual value of the voltage gain of the opamp circuit B ideal value of the voltage gain C percent error Exa 2.8 Design a non inverting opamp circuit of voltage gain 4 Exa 2.9 Find the input resistance of an inverting opamp circuit with voltage gain of 4. Exa 2.6 Find the time variation of the capacitor voltage. Exa 2.5 Find the time variation of the voltage drop appearing across the inductor terminals. Exa 2.4 Find the resistance of the round copper conductor having the given specifications. Exa 2.3 Find the resistance of the round copper conductor having the given specifications. Exa 2.2 From the given list of resistors choose a suitable resistor which can carry a current of 300mA. Exa 2.1.c Repeat parts A and B with the voltage source replaced by a current source of 1A. Exa 2.1.b Determine the current flow and voltage drop across each resistor. Exa 2.1.a Determine the current flow and voltage drop across the resistor. List of Scilab Codes Exa 1.1 force between two like charges in free space. Sec 2.3 means a scilab code whose theory is explained in Section 2.3 of the book.ġ The Fundamental laws of Electrical EngineeringĤ Circuit differential equations Forms and SolutionsĦ The laplace transform method of finding circuit solutionsħ Sinusoidal steady state response of circuitsġ1 Binary logic Theory and Implimentationġ9 Computations of Synchronous Motor Performance Exa Example (Solved example) Eqn Equation (Particular equation of the above book) AP Appendix to Example(Scilab Code that is an Appednix to a particular Example of the above book) For example, Exa 3.51 means solved example 3.51 of this book. Scilab numbering policy used in this document and the relation to the above book. Del Toro Publisher: Prentice - Hall International Edition: 2 Year: 2009 ISBN: 9780132475525 This Textbook Companion and Scilab codes written in it can be downloaded from the ”Textbook Companion Project” section at the website īook Description Title: Electrical Engineering Fundamentals Author: V. Kulkarni May 19, 2016īy a grant from the National Mission on Education through ICT. Del Toro1 Created by Aditi Pohekar Electrical Engineering Electrical Engineering IIT Bombay College Teacher Madhu N. Scilab Textbook Companion for Electrical Engineering Fundamentals by V.