Thermal computations for electronics
Gordon N. Ellison
Reading Time
at 250 WPM6h 44m
The average reader, reading at a speed of 250 WPM, would take 6h 44m to read Thermal computations for electronics.
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14
days at 30 min/day
404
total minutes
Thermal computations for electronics
Published
2022
Publisher
Taylor & Francis Group
Pages
404
ISBN-13
9781032336312
Description
"This book covers mathematical calculation, prediction, and application methods for conductive, radiative, and convective heat transfer in electronic equipment. It provides complete mathematical derivations, supplements formulae with design plots, and offers exercise solutions and lecture aids including PDFs and downloadable Mathcad worksheets. The author covers topics such as methods for multi-surface radiation exchange, conductive heat transfer in electronics, and finite element theory with a variational calculus method explained for heat conduction. Offering mathematical descriptions of large thermal network problem formulation, he discusses theory of comprehensive thermal spreading resistance, and includes steady-state and time-dependent problems"-- "This book covers mathematical calculation, prediction, and application methods for conductive, radiative, and convective heat transfer in electronic equipment. It provides complete mathematical derivations, supplements formulae with design plots, and offers exercise solutions and lecture aids. These include landscape-viewable PDF files and downloadable Mathcad worksheet files for text application. The author covers topics such as methods for multi-surface radiation exchange, conductive heat transfer in electronics, and finite element theory with a variational calculus method explained for heat conduction. Offering mathematical descriptions of large thermal network problem formulation, he discusses theory of comprehensive thermal spreading resistance (with design curves and applications), and includes steady-state and time-dependent problems"--
Subjects
Through the Looking-Glass
The Canterbury Tales
Introductory Mathematical Analysis
Weapons of Math Destruction
Mathematical structures for computer science
Algorithms to Live By
Frequently Asked Questions
How many pages are in Thermal computations for electronics?
This edition of Thermal computations for electronics has approximately 404 pages. Please note, this is an estimate and the exact page count can vary between hardcover, paperback, and e-book versions.
How long does it take to read Thermal computations for electronics?
For most readers, Thermal computations for electronics typically takes between 8h 25m and 5h 37m to complete. This is based on the book's length of approximately 101,000 words and common reading speeds.
Here's a detailed breakdown: • Continuous reading at 250 WPM: approximately 6h 44m of focused reading • Casual reading (30 minutes/day): you could finish in roughly 14 days • Estimated word count: 101,000 words
Your individual reading time will vary based on your personal reading pace, the amount of daily reading time, and your familiarity with the subject matter.
What is the word count of Thermal computations for electronics?
The estimated word count for Thermal computations for electronics is approximately 101,000 words. This figure is calculated using industry-standard methods that consider genre-specific word density patterns, typical formatting and layout characteristics, and standard words-per-page ratios for published books.
This is an approximation — actual word count may vary based on font size, formatting, edition, and the presence of illustrations or charts.
Who is the author of Thermal computations for electronics?
Thermal computations for electronics was written by Gordon N. Ellison.
When was Thermal computations for electronics published?
The publication date for this specific edition is 2022. The original work may have been published on a different date.