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Problems for biomedical fluid mechanics and transport phenomena / Mark Johnson, Northwestern University, Illinois, C. Ross Ethier, Georgia Institute of Technology and emory University.

By: Johnson, Mark [author.].
Contributor(s): Ethier, Christopher Ross, 1959- [author.].
Material type: materialTypeLabelBookSeries: Cambridge texts in biomedical engineering: Publisher: Cambridge : Cambridge University Press, 2014Description: 1 online resource (x, 170 pages) : digital, PDF file(s).Content type: text Media type: computer Carrier type: online resourceISBN: 9781139794787 (ebook).Other title: Problems for Biomedical Fluid Mechanics & Transport Phenomena.Subject(s): Body fluid flow | Fluid mechanics | Body fluid flow -- Problems exercises, etc | Fluid mechanics -- Problems, exercises, etcAdditional physical formats: Print version: : No titleDDC classification: 612.0 Online resources: Click here to access online
Contents:
Problem solving -- Conservation of mass and the Reynolds transport theorem -- Steady and unsteady Bernoulli equation and momentum conservation -- Viscous flow -- Momentum boundary layers -- Piping systems, friction factors, and drag coefficients -- Problems involving surface tension -- Non-Newtonian blood flow -- Dimensional analysis -- Statistical mechanics -- Steady diffusion and conduction -- Unsteady diffusion and conduction -- Convention of mass and heat -- Concentration and thermal boundary layers -- Mass and heat transfer coefficients -- Osmotic pressure.
Summary: How does one deal with a moving control volume? What is the best way to make a complex biological transport problem tractable? Which principles need to be applied to solve a given problem? How do you know if your answer makes sense? This unique resource provides over two hundred well-tested biomedical engineering problems that can be used as classroom and homework assignments, quiz material and exam questions. Questions are drawn from a range of topics, covering fluid mechanics, mass transfer and heat transfer applications. Driven by the philosophy that mastery of biotransport is learned by practice, these problems aid students in developing the key skills of determining which principles to apply and how to apply them. Each chapter starts with basic problems and progresses to more difficult questions. Lists of material properties, governing equations and charts provided in the appendices make this a fully self-contained work. Solutions are provided online for instructors.
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Problem solving -- Conservation of mass and the Reynolds transport theorem -- Steady and unsteady Bernoulli equation and momentum conservation -- Viscous flow -- Momentum boundary layers -- Piping systems, friction factors, and drag coefficients -- Problems involving surface tension -- Non-Newtonian blood flow -- Dimensional analysis -- Statistical mechanics -- Steady diffusion and conduction -- Unsteady diffusion and conduction -- Convention of mass and heat -- Concentration and thermal boundary layers -- Mass and heat transfer coefficients -- Osmotic pressure.

How does one deal with a moving control volume? What is the best way to make a complex biological transport problem tractable? Which principles need to be applied to solve a given problem? How do you know if your answer makes sense? This unique resource provides over two hundred well-tested biomedical engineering problems that can be used as classroom and homework assignments, quiz material and exam questions. Questions are drawn from a range of topics, covering fluid mechanics, mass transfer and heat transfer applications. Driven by the philosophy that mastery of biotransport is learned by practice, these problems aid students in developing the key skills of determining which principles to apply and how to apply them. Each chapter starts with basic problems and progresses to more difficult questions. Lists of material properties, governing equations and charts provided in the appendices make this a fully self-contained work. Solutions are provided online for instructors.

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