Search Results - Baldwin effect

Beyond preservation restoring and inventing landscapes /

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Beyond preservation restoring and inventing landscapes /

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Disease and democracy the industrialized world faces AIDS / by Baldwin, Peter

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Disease and democracy the industrialized world faces AIDS / by Baldwin, Peter

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Bending Opinion : Essays on Persuasion in the Public Domain /

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Bending Opinion : Essays on Persuasion in the Public Domain /

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Landscape Archaeology between Art and Science : From a Multi- to an Interdisciplinary Approach /

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Landscape Archaeology between Art and Science : From a Multi- to an Interdisciplinary Approach /

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God-fearing and free a spiritual history of America's Cold War / by Stevens, Jason W., 1975-

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God-fearing and free a spiritual history of America's Cold War / by Stevens, Jason W., 1975-

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Classical and modern engineering methods in fluid flow and heat transfer an introduction for engineers and students / by Dorfman, A. Sh. (Abram Shlemovich)

Table of Contents: “…Methods in turbulent fluid flow and heat transfer -- 3.1 Transition from laminar to turbulent flow -- 3.1.1 Basic characteristics -- 3.1.2 The problem of laminar flow stability -- 3.2 Reynolds-averaged Navier-Stokes equation -- 3.2.1 Some physical aspects -- 3.2.2 Reynolds averaging -- 3.2.3 Reynolds equations and Reynolds stresses -- 3.3 Algebraic models -- 3.3.1 Prandtl's mixing-length hypothesis -- 3.3.2 Modern structure of velocity profile in turbulent boundary layer -- Exercises 3.1-3.22 -- 3.3.3 Mellor-Gibson model [9, 10, 13, 18] -- 3.3.4 Cebeci-Smith model [13] -- 3.3.5 Baldwin-Lomax model [18] -- 3.3.6 Application of the algebraic models -- 3.3.6.1 The far wake -- 3.3.6.2 The two-dimensional jet -- 3.3.6.3 Mixing layer of two parallel streams -- 3.3.6.4 Flows in channel and pipe -- 3.3.6.5 The boundary-layer flows -- 3.3.6.6 Heat transfer from an isothermal surface -- 3.3.6.7 The effect of the turbulent Prandtl number -- 3.3.7 The 1/2 equation model -- 3.3.8 Applicability of the algebraic models -- Exercises 3.23-3.40 -- 3.4 One-equation and two-equation models -- 3.4.1 Turbulence kinetic energy equation -- 3.4.2 One-equation models -- 3.4.3 Two-equation models -- 3.4.3.1 The k - w model -- 3.4.3.2 The k - e model -- 3.4.3.3 The other turbulence models -- 3.4.4 Applicability of the one-equation and two-equation models -- 3.5 Integral methods -- Exercises 3.41-3.56 --…”
An electronic book accessible through the World Wide Web; click to view

Classical and modern engineering methods in fluid flow and heat transfer an introduction for engineers and students / by Dorfman, A. Sh. (Abram Shlemovich)

Table of Contents: “…Methods in turbulent fluid flow and heat transfer -- 3.1 Transition from laminar to turbulent flow -- 3.1.1 Basic characteristics -- 3.1.2 The problem of laminar flow stability -- 3.2 Reynolds-averaged Navier-Stokes equation -- 3.2.1 Some physical aspects -- 3.2.2 Reynolds averaging -- 3.2.3 Reynolds equations and Reynolds stresses -- 3.3 Algebraic models -- 3.3.1 Prandtl's mixing-length hypothesis -- 3.3.2 Modern structure of velocity profile in turbulent boundary layer -- Exercises 3.1-3.22 -- 3.3.3 Mellor-Gibson model [9, 10, 13, 18] -- 3.3.4 Cebeci-Smith model [13] -- 3.3.5 Baldwin-Lomax model [18] -- 3.3.6 Application of the algebraic models -- 3.3.6.1 The far wake -- 3.3.6.2 The two-dimensional jet -- 3.3.6.3 Mixing layer of two parallel streams -- 3.3.6.4 Flows in channel and pipe -- 3.3.6.5 The boundary-layer flows -- 3.3.6.6 Heat transfer from an isothermal surface -- 3.3.6.7 The effect of the turbulent Prandtl number -- 3.3.7 The 1/2 equation model -- 3.3.8 Applicability of the algebraic models -- Exercises 3.23-3.40 -- 3.4 One-equation and two-equation models -- 3.4.1 Turbulence kinetic energy equation -- 3.4.2 One-equation models -- 3.4.3 Two-equation models -- 3.4.3.1 The k - w model -- 3.4.3.2 The k - e model -- 3.4.3.3 The other turbulence models -- 3.4.4 Applicability of the one-equation and two-equation models -- 3.5 Integral methods -- Exercises 3.41-3.56 --…”
An electronic book accessible through the World Wide Web; click to view