Introduction to Biomedical EngineeringPearson/Prentice Hall, 2004 - 244 sider For freshman and limited calculus-based courses in Introduction to Biomedical Engineering or Introduction to Bioengineering. This text presents freshman-level students with a study of some of the best engineering designs provided by nature and exposes them to bioengineering practice from a variety of perspectives. Examining the living system from the molecular to the the human scale, this text covers such key issues as optimization, scaling, and design; and introduces these concepts in a sequential, layered manner. Analysis strategies, science, and technology are illustrated in each chapter. |
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Side 39
... body of water . Purging is done to eliminate the buildup of some components when recycling is done . For example ... body and assessing dietary needs Analyzing the fate of iron in the body can illustrate how to deal with recycling ...
... body of water . Purging is done to eliminate the buildup of some components when recycling is done . For example ... body and assessing dietary needs Analyzing the fate of iron in the body can illustrate how to deal with recycling ...
Side 154
... body . If fat and protein are about 50 percent by weight carbon , estimate the frac- tion of carbon in the water - free mass of the human body and compare this value to a typical cell . 9.3 One type of an artificial heart and battery ...
... body . If fat and protein are about 50 percent by weight carbon , estimate the frac- tion of carbon in the water - free mass of the human body and compare this value to a typical cell . 9.3 One type of an artificial heart and battery ...
Side 211
... body is given by Vв dCB / dt = kp VDCD kDVDCD REVBCB . - ( 13.2 ) Because the volumes are constant over time , by ... body . Initially ( i.e. , limit t → 0 ) , the concentration of drug in the body should be zero , because it is all ...
... body is given by Vв dCB / dt = kp VDCD kDVDCD REVBCB . - ( 13.2 ) Because the volumes are constant over time , by ... body . Initially ( i.e. , limit t → 0 ) , the concentration of drug in the body should be zero , because it is all ...
Indhold
What is Bioengineering? | 3 |
Cellular Elemental and Molecular Building Blocks | 16 |
Mass Conservation Cycling and Kinetics | 33 |
Copyright | |
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activity amino acids analysis artificial heart Assume bacteria binding sites biochemical bioengineering biomaterials engineering Biomedical Engineering body carbon cellular Chapter chemical clotting coli constant contact angle device digestive system disease drug energy enzyme equal Equation example factor flow rate fluid fluorescent free induction free induction decay frequency function genetic glucose growth heat hormone human illustrate immune system implanted increase ingested insulin interactions iron ISBN kinetics ligand magnetic mass balance matrix mechanisms membrane metabolic engineering molecular molecules mRNA needed nutrients occurs organs Overall oxidation oxygen patient percent performed plasma platelet polymer pressure drop problem produce protein pump raw materials reaction Recall recycle red blood cells released result shear force shear stress shown in Figure signal strategy substrate sugar surface tion tissue engineering tube turnover number typical variables velocity versus voltage volume yield