Higher Electrical Principles
3rd Edition
Published on 12. December 1997
Book
Paperback/Softback
472 pages
978-0-582-29460-8 (ISBN)
Description
This third edition has been fully revised and expanded from the author's Electrical Principles IV to cover all the material for both years of study for a BTEC HNC/D in Engineering. Each topic is carefully explained and then illustrated by a large number of practical examples with fully-worked solutions. Each chapter also contains exercises, with solutions at the end of the book, to reinforce the theory.
Higher Electrical Principles is essential reading for all students taking electrical principles level IV and V for HNC/D courses in electrical, electronic, communication and computer engineering. It will also be of interest to first and second year undergraduates studying engineering degree courses.
Higher Electrical Principles is essential reading for all students taking electrical principles level IV and V for HNC/D courses in electrical, electronic, communication and computer engineering. It will also be of interest to first and second year undergraduates studying engineering degree courses.
More details
Edition
3rd edition
Language
English
Place of publication
Harlow
United Kingdom
Publishing group
Pearson Education Limited
Target group
College/higher education
Dimensions
Height: 247 mm
Width: 189 mm
Thickness: 24 mm
Weight
850 gr
ISBN-13
978-0-582-29460-8 (9780582294608)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Previous edition
D. C. Green
Electrical Principles IV
Book
08/1992
2nd Edition
Longman
€21.07
Article exhausted; check for reprint
Content
1. Complex algebra, determinants and matrices.
2. AC circuits.
3. Power in AC circuits.
4. Resonant circuits.
5. Mesh and nodal analysis.
6. Circuit theorems.
7. Star-delta transform.
8. AC bridges.
9. Magnetic and dielectric materials.
10. Coupled circuits.
11. Iron-cored transformers.
12. Electric and magnetic fields.
13. Energy transfer.
14. Network parameters.
15. Network theory.
16. Matched transmission lines.
17. Mismatched transmission lines.
18. Complex waveforms.
19. Non-linear circuits.
20. Solution of circuits using Laplace transforms.
2. AC circuits.
3. Power in AC circuits.
4. Resonant circuits.
5. Mesh and nodal analysis.
6. Circuit theorems.
7. Star-delta transform.
8. AC bridges.
9. Magnetic and dielectric materials.
10. Coupled circuits.
11. Iron-cored transformers.
12. Electric and magnetic fields.
13. Energy transfer.
14. Network parameters.
15. Network theory.
16. Matched transmission lines.
17. Mismatched transmission lines.
18. Complex waveforms.
19. Non-linear circuits.
20. Solution of circuits using Laplace transforms.