![]() Because chemical engineers often need a detailed understanding of flow within small scale devices (catalyst pellets, living animal tissue, high-density processor chip manufacture), considerable emphasis is placed on the differential equations that describe fluid flow. In this first course, momentum transfer is studied thus involving the motion and deformation of fluids (a.k.a. This course introduces the topic of Transport Phenomena, which involves the development of mathematical models and physical understanding of the transfer of momentum, energy and mass. Understand and be able to use macroscopic balances to solve problems for cases that are well-defined and also slightly ill-definedĪn Introduction to Fluid Dynamics by Stanley Middleman (Wiley, 1998) Mathematica Notebooks by Professor McCready at.Understand the physical basis and mathematical derivation of the macroscopic equations for mass and momentum transport.Understand the use of physically-motivated approximations based on nondimensionalization of the governing equations to solve nearly-unidirectional flow problems.Understand physical meaning and origin within the governing equations of dimensionless numbers such as Reynolds, Froude and Weber.Be able to use the differential equations for mass and momentum to solve (steady) unidirectional flow problems.Understand the physical basis and mathematical derivation of the differential equations for mass and momentum transport.Understand how pressure, gravity, moving surfaces and surface tension act on a fluid to deform it and possibly cause it to flow.Understand shear and normal stresses in a flowing fluid and describe these mathematically.Students who complete this course should be able to: Finance, Statistics & Business Analysisįor the newest resources, visit Wolfram Repositories and Archives ».Wolfram Knowledgebase Curated computable knowledge powering Wolfram|Alpha. Wolfram Universal Deployment System Instant deployment across cloud, desktop, mobile, and more. Wolfram Data Framework Semantic framework for real-world data. ![]()
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