| Biomechanical Systems: Techniques and Applications, Volume II: Cardiovascular Techniques Contributor(s): Leondes, Cornelius T. (Editor) |
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ISBN: 0849390478 ISBN-13: 9780849390470 Publisher: CRC Press OUR PRICE: $403.75 Product Type: Hardcover - Other Formats Published: December 2000 Annotation: Because of developments in powerful computer technology, computational techniques, advances in a wide spectrum of diverse technologies, and other advances coupled with cross disciplinary pursuits between technology and its greatly significant applied implications in human body processes, the field of biomechanics is evolving as a broadly significant area. Now in four volumes, Biomechanical Systems, Techniques, and Applications explores the many areas of significant advances, including dynamics of musculo-skeletal systems; mechanics of hard and soft tissues, muscles, bone remodeling, hard and soft tissue interfaces, blood flow, air flow, flow-prosthesis interfaces, and impact; cardiovascular and respiratory biomechanics; and dynamics of many machine interactions. |
| Additional Information |
| BISAC Categories: - Science | Life Sciences - Anatomy & Physiology - Medical | Biotechnology - Medical | Physiology |
| Dewey: 571.43 |
| LCCN: 00048559 |
| Physical Information: 0.9" H x 7.22" W x 10.22" (1.74 lbs) 336 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Because of developments in powerful computer technology, computational techniques, advances in a wide spectrum of diverse technologies, and other advances coupled with cross disciplinary pursuits between technology and its greatly significant applied implications in human body processes, the field of biomechanics is evolving as a broadly significant area. The four volumes of Biomechanical Systems, Techniques, and Applications explore the many areas of significant advances, including dynamics of musculo-skeletal systems; mechanics of hard and soft tissues, muscles, bone remodeling, hard and soft tissue interfaces, blood flow, air flow, flow-prosthesis interfaces, and impact; cardiovascular and respiratory biomechanics; and dynamics of many machine interactions. |