Fundamental Concepts in Electrical and Computer Engineering with Practical Design ProblemsUniversal-Publishers, 2007 - 736 pagine In many cases, the beginning engineering student is thrown into upper-level engineering courses without an adequate introduction to the basic material. This, at best, causes undue stress on the student as they feel unprepared when faced with unfamiliar material, and at worst, results in students dropping out of the program or changing majors when they discover that their chosen field of engineering is not what they thought it was. The purpose of this text is to introduce the student to a general cross-section of the field of electrical and computer engineering. The text is aimed at incoming freshmen, and as such, assumes that the reader has a limited to nonexistent background in electrical engineering and knowledge of no more than pre-calculus in the field of mathematics. By exposing students to these fields at an introductory level, early in their studies, they will have both a better idea of what to expect in later classes and a good foundation of knowledge upon which to build. |
Sommario
3 | |
27 | |
7 | 111 |
Exercises | 147 |
Chapter | 295 |
8 | 327 |
COMPUTER ORGANIZATION AND ARCHITECTURE | 337 |
3 | 351 |
3 | 601 |
Module 2 Multisim | 607 |
Module 3 Serial Communications | 625 |
2 | 632 |
2 | 640 |
1 | 647 |
Module 7 Printed Circuit Board Design | 667 |
Exercises | 673 |
Parole e frasi comuni
addition alternating current applications base basic binary Boolean expression calculated capacitance capacitor chapter charge carriers cofactor coil color complex numbers components compression concept convert coulombs cross product current flowing decimal number describe determine device dielectric diode dot product electric field electrical charge electrical power electrons elements equivalent resistance example filter frequency gate given hexadecimal identity matrix illustration inductor input Kirchhoff’s Kirchhoff's Voltage Law look magnetic field magnetic flux magnitude material matrix inverse measure method multiplied negative nodal analysis node octal Ohm’s law operation output parallel perform pixel placeholder plates polar potential difference Problem quantity rectangular coordinates relationship represent resistor result row and column sample schematic symbols shown in Figure signal processing simplified simply solenoid Solution sound subtraction switch system of equations total current transformer truth table typical unit vector voltage drop volts waveform wire write zero
Brani popolari
Pagina 43 - real" numbers and j is the square root of negative one (an "imaginary