![]() Transport Phenomena in Biological Systems, 2nd Edition- Chapter 10 Mass transport and biochemical interactions. Transport Phenomena in Biological Systems, 2nd Edition – Chapter 6, 7 and 8 Transport Phenomena in Biological Systems, 2nd Edition – Chapter 5 and 6, Introduction to Fluid Mechanics, 5th Edition– Chapter 5Ĭonservation of mass. Transport Phenomena in Biological Systems, 2nd Edition – Chapter 3, 4 and 5, Introduction to Fluid Mechanics, 5th Edition– Chapter 5 and 8Ĭonservation relations and applications of momentum transport.įinite control volume analysis. Transport Phenomena in Biological Systems, 2nd Edition – Chapter 3, 4 and 5, Introduction to Fluid Mechanics, 5th Edition– Chapter 3įluid flow in the circulation. ![]() Transport Phenomena in Biological Systems, 2nd Edition – Chapter 2, Introduction to Fluid Mechanics, 5th Edition– Chapter 2 and 3Įlementary fluid dynamics and its biological and medical applications. Static, stagnation, dynamic and total pressure. Transport Phenomena in Biological Systems, 2nd Edition – Chapter 2, Introduction to Fluid Mechanics, 5th Edition– Chapter 1īasic pressure field equation. Transport Phenomena in Biological Systems, 2nd Edition – Chapter 1 and 2, Introduction to Fluid Mechanics, 5th Edition– Chapter 1 Applications of Newton’s Law of viscosity. Transport Phenomena in Biological Systems, 2nd Edition - Chapter 1 Introduction to biotransport and fundamental concepts. WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES Week This course covers the key properties of fluids, pressure changes in fluid motion, fluid transport in circulation, applications of Bernoulli's principle in biological systems, equations of momentum and mass transport, diffusion and convection.
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