ISBN 9781285056487 is out of print and is currently unavailable, alternate formats (if applicable) are shown below.
Available options are listed below:
Available options are listed below:
Principles of Engineering Thermodynamics, Si Edition (Out of print)
AUTHOR | Reisel, John R. |
PUBLISHER | Cengage Learning (02/23/2015) |
PRODUCT TYPE | Paperback (Paperback) |
Description
Written in an informal, first-person writing style that makes abstract concepts easier to understand, PRINCIPLES OF ENGINEERING THERMODYNAMICS provides strong coverage of fundamental concepts and applications. To help readers develop a better understanding of how to apply thermodynamics in their careers and a stronger intuitive feel for how the different components of thermodynamics are interrelated, the book asks readers to explore how changes in a particular parameter can change a device's or process' performance. Readers are encouraged to develop computer-based models of devices, processes, and cycles and to take advantage of the speed of Internet-based programs and computer apps to find thermodynamic data, just as practicing engineers do.
Show More
Product Format
Product Details
ISBN-13:
9781285056487
ISBN-10:
1285056485
Binding:
Paperback or Softback (Trade Paperback (Us))
Content Language:
English
More Product Details
Page Count:
576
Carton Quantity:
18
Product Dimensions:
8.00 x 0.70 x 9.90 inches
Weight:
1.85 pound(s)
Country of Origin:
US
Subject Information
BISAC Categories
Technology & Engineering | Mechanical
Dewey Decimal:
621.402
Descriptions, Reviews, Etc.
publisher marketing
Written in an informal, first-person writing style that makes abstract concepts easier to understand, PRINCIPLES OF ENGINEERING THERMODYNAMICS provides strong coverage of fundamental concepts and applications. To help readers develop a better understanding of how to apply thermodynamics in their careers and a stronger intuitive feel for how the different components of thermodynamics are interrelated, the book asks readers to explore how changes in a particular parameter can change a device's or process' performance. Readers are encouraged to develop computer-based models of devices, processes, and cycles and to take advantage of the speed of Internet-based programs and computer apps to find thermodynamic data, just as practicing engineers do.
Show More
Author:
Reisel, John R.
John R. Reisel (PhD, Purdue University) is Associate Professor, University of Wisconsin, Milwaukee, where he teaches undergraduate courses in Thermodynamics and graduate courses in Advanced Engineering Thermodynamics. The author of many refereed articles published in peer-reviewed journals, Reisel is a member of the American Society for Engineering Education and a recipient of the UWM Distinguished Undergraduate Teaching Award. He is a Professional Engineer, State of Wisconsin.
Show More
List Price $184.95
Your Price
$183.10