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  1. Purdue ME 606: Notes on Near-Field Radiation

    Introduction In this module, we consider some unique aspects of radiation (and more EM wave propagation more generally) that occur at small length scales. The content here draws from an excellent …

    http://thermalhub.org/topics/NotesonNearfieldRadiation

  2. Purdue ME 606: Radiation Heat Transfer Main Page

    About This Page This page on thermalHUB.org contains syllabus materials related to a PhD-level course entitled “Radiation Heat Transfer” offered at Purdue University in alternative years. …

    http://thermalhub.org/groups/purdueme606fa2008/wiki/MainPage

  3. Purdue ME 606: Radiative Heat Flux (Lecture 12)

    Radiative Heat Flux INSERT FIGURE HERE Of typically more interest is the divergence of the heat flux vector: where the incident radiation, Note: , where of radiation field. Combined with the …

    http://thermalhub.org/topics/PurdueME606:RadiativeHeatFluxLecture12

  4. Purdue ME 606: View Factors

    View Factors (or Shape Factors) F1→2 is the fraction of energy leaving surface 1 that arrives at surface 2 Assume black surfaces flux leaving 1: Eb1 total leaving 1: A1Eb1 amount arriving …

    http://thermalhub.org/topics/PurdueME606:ViewFactors

  5. Purdue ME606: EM Field Theory

    Electromagnetic Field Theory Maxwell Equations where: ε is electrical permittivity is electric field vector ρf is free electron density where: μ is magnetic …

    http://thermalhub.org/topics/PurdueME606:EM_Field_Theory

  6. Derivation of Planck's Law

    This page provides a brief derivation of Planck’s law from basic statistical principles. For more information, the reader is referred to the textbook by Rybicki and Lightman (Radiative …

    http://thermalhub.org/topics/DerivationofPlancksLaw

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