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This Concept Map, created with IHMC CmapTools, has information related to: Heating Methods, Convection ???? the transfer of heat by mass motion of a fluid from one region of space to another., Heating Methods ???? Conduction (Heat Current), the transfer of heat by mass motion of a fluid from one region of space to another. (Really complicated), Heating Methods ???? Convection, Heating Methods ???? Radiation, Radiation ???? The transfer of heat by electromagnetic waves, The rate at which heat flows through a material: dQ/dt Heat current in conduction H=dQ/dt = kA*(TH-Tc)/L, The transfer of heat by electromagnetic waves e = nature of the surface <math xmlns="http://www.w3.org/1998/Math/MathML"> <mrow> <mtext> H = Ae </mtext> <mmultiscripts> <mtext> σT </mtext> <none/> <mtext> 4 </mtext> </mmultiscripts> </mrow> </math>, the transfer of heat by mass motion of a fluid from one region of space to another. (Really complicated), the transfer of heat by mass motion of a fluid from one region of space to another. (Really complicated), <math xmlns="http://www.w3.org/1998/Math/MathML"> <mrow> <mtext> H = Ae </mtext> <mmultiscripts> <mtext> σT </mtext> <none/> <mtext> 4 </mtext> </mmultiscripts> </mrow> </math> Stefan-Boltzmann Law <math xmlns="http://www.w3.org/1998/Math/MathML"> <mrow> <mtext> σ = 5.670400 x </mtext> <mmultiscripts> <mtext> 10 </mtext> <none/> <mtext> -8 </mtext> </mmultiscripts> </mrow> </math>, H=dQ/dt = kA*(TH-Tc)/L Thermal Resistance R=L/k, Conduction (Heat Current) ???? The rate at which heat flows through a material: dQ/dt