Title
Lung Mechanics: An Inverse Modeling Approach
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With Mathematical And Computational Models Furthering Our Understanding Of Lung Mechanics, Function And Disease, This Book Provides An Allinclusive Introduction To The Topic From A Quantitative Standpoint. Focusing On Inverse Modeling, The Reader Is Guided Through The Theory In A Logical Progression, From The Simplest Models Up To Stateoftheart Models That Are Both Dynamic And Nonlinear. Key Tools Used In Biomedical Engineering Research, Such As Regression Theory, Linear And Nonlinear Systems Theory, And The Fourier Transform, Are Explained. Derivations Of Important Physical Principles, Such As The Poiseuille Equation And The Wave Speed Equation, From First Principles Are Also Provided. Example Applications To Experimental Data Throughout Illustrate Physiological Relevance, Whilst Problem Sets At The End Of Each Chapter Provide Practice And Test Reader Comprehension. This Book Is Ideal For Biomedical Engineering And Biophysics Graduate Students And Researchers Wishing To Understand This Emerging Field.
⚠️ WARNING (California Proposition 65):
This product may contain chemicals known to the State of California to cause cancer, birth defects, or other reproductive harm.
For more information, please visit www.P65Warnings.ca.gov.
- Q: What is the total number of pages in the book? A: This book has two hundred twenty pages. It provides a comprehensive overview of lung mechanics and inverse modeling.
- Q: What kind of binding does the book have? A: The book is bound in hardcover. This type of binding adds durability and a professional appearance.
- Q: What are the dimensions of the book? A: The book measures seven point zero one inches in length, zero point seventy-five inches in width, and ten inches in height. These dimensions make it easy to handle and store.
- Q: How is this book used for studying lung mechanics? A: This book serves as an introductory text for understanding lung mechanics. It includes mathematical models and theories, guiding readers through complex concepts.
- Q: Is this book suitable for graduate students? A: Yes, this book is ideal for graduate students in biomedical engineering and biophysics. It provides in-depth knowledge necessary for advanced study.
- Q: Are there problem sets included in the book? A: Yes, each chapter includes problem sets. These are designed to test comprehension and reinforce learning.
- Q: How can I maintain the book's condition over time? A: To keep the book in good condition, store it in a cool, dry place and avoid exposure to direct sunlight. Handling it carefully will also help preserve its quality.
- Q: Can this book be used for self-study? A: Yes, it is suitable for self-study. The logical progression of topics and problem sets make it easy for independent learners to follow.
- Q: What are the key topics covered in the book? A: The book covers lung mechanics, inverse modeling, and key biomedical engineering tools. It also explains important equations from first principles.
- Q: Is there any specific target audience for this book? A: Yes, the primary audience includes biomedical engineering and biophysics graduate students and researchers. It’s tailored for those seeking to understand advanced concepts.
- Q: What type of content can I expect in the book? A: The book includes theoretical discussions, practical applications, and derivations of key principles. Example applications to experimental data are also provided.
- Q: How does this book compare to other texts in the field? A: This book stands out by focusing on inverse modeling and providing a quantitative perspective, making it a unique resource in biomedical engineering.
- Q: What if I receive a damaged copy of the book? A: If you receive a damaged copy, you should contact the seller for a return or exchange. Ensure you have your order details for a smoother process.
- Q: Are there any safety concerns with using this book? A: No, there are no safety concerns associated with this book. It is a scholarly text intended for educational purposes.
- Q: Can I find additional resources or references in the book? A: Yes, the book often references key studies and resources for further reading. This enhances learning and research opportunities.
- Q: Does the book include any illustrations or diagrams? A: Yes, the book includes illustrations and diagrams to help clarify complex concepts and enhance understanding of the material.