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Tags: Type5 BC

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  1. Green's Function for Heat Conduction in an Infinite Hollow Cylinder R50 with a Type 5 Boundary Condition

    05 May 2014 | Publications | Contributor(s): Donald E. Amos

    The Green’s function is the principal tool in construction of the general solution to the classical heat conduction problem. The solution is presented in terms of the internal heat generation,...

    http://nanohub.org/resources/20959

  2. Green's Function for Heat Conduction in a Semi-infinite Medium X50 with a Type 5 Boundary Condition

    01 May 2014 | Publications | Contributor(s): Donald E. Amos

    The Green's function is the principal tool in construction of the general solution to the classical heat conduction problem. The solution is presented in terms of the internal heat generation,...

    http://nanohub.org/resources/20952

  3. Green's Function for Heat Conduction in a Hollow Cylinder R55 with Type 5 Boundary Conditions

    25 Mar 2014 | Publications | Contributor(s): Donald E. Amos

    Abstract The Green's function is the principal tool in construction of the general solution to the classical heat conduction problem. The solution is presented in terms of the internal heat...

    http://nanohub.org/resources/20661

  4. Green's Function for Heat Conduction in a Slab X55 with Type 5 Boundary Condtions

    10 Mar 2014 | Publications | Contributor(s): Donald E. Amos

    The Green's function is the principal tool in construction of the general solution to the classical heat conduction problem. The solution is presented in terms of the internal heat generation,...

    http://nanohub.org/resources/20575

  5. Heat Conduction in a Hollow Cylinder R55T0 and Sub-cases

    08 Mar 2014 | Publications | Contributor(s): Donald E. Amos

    A hollow cylinder is heated on both surfaces with known fluxes which are partly dissipated by conduction into the cylinder, partly lost to the exterior media, and partly stored in boundary layers...

    http://nanohub.org/resources/20535

  6. Heat Conduction in a Slab X55T0 and Sub-cases

    05 Mar 2014 | Publications | Contributor(s): Donald E. Amos

    A slab is heated on both faces with known fluxes which are partly dissipated by conduction into the slab, partly lost to the exterior media, and partly stored in a boundary layer with only heat...

    http://nanohub.org/resources/20381

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