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Thermal conductivity What factors affect how quickly thermal energy travels through a substance? Prior experience We consider water that is 70F to be cold, but 70F air to be comfortable. You can burn your fingers if you touch 250F metal but not if you touch 250F bread. Explain the difference. Prior experience We know we feel cold when thermal energy leaves our bodies quickly. Why do additional layers of clothes slow down how quickly thermal energy leaves your body quickly. Prior experience If you put an ice cube in a protector and put the protector on a lukewarm water, the ice cube melts slowly. If you the protector in boiling water, the ice cube melts much more quickly. Explain the difference. Extend your thinking Sometimes it is advantageous to have things cool down quickly, e.g., computer hard drives, e.g., car engines, e.g., back side of refrigerators or air conditioners, etc. Extend your thinking What characteristics do radiators, computer heat sinks, and the back of refrigerators have in common? Propose an explanation for how they transfer thermal energy quickly. Patterns The rate at which energy is transferred seems to depend on: 1) Area: cooling fins 2) Thickness: layers 3) Temperature difference 4) Types of material: water vs. air Summarize relationships As area gets larger, energy transfers faster. Area, Rate, 𝐴 𝑄/𝑡 Summarize relationships, part 2 As substance gets thicker, energy transfers slower. Thickness, Rate, 𝑙 𝑄/𝑡 Summarize relationships, part 3 As temperature difference gets larger, energy transfers faster. Technical vocabulary: A difference based on position is called a GRADIENT and is symbolized with an inverted delta, Temperature Rate, gradient, 𝑄/𝑡 𝛻𝑇 Summarize relationships, part 4 Some substances transfer energy more quickly than others. To quantify how quickly different substances transfer thermal energy, carry out experiments (or, easier, look it up). Thermal conductivity constant The thermal conductivity constant tells you the rate at which thermal energy flows through a one square meter of a substance that is one meter thick and has a 1C temperature gradient between its sides. It is symbolized with the Greek letter kappa, Rate, 𝑄/𝑡 Mathematical models Just as we created a conceptual model to help explain how energy is transferred, we can create a mathematical model to predict how quickly it transfers. Mathematical models 𝑄/𝑡 𝐴 𝑄/𝑡 𝛻𝑇 𝑄/𝑡 𝑙 𝑄/𝑡 𝑄 𝐴 𝛻𝑇 = 𝑙 𝑡 Application To see how (and why!) to apply this model, work through the examples and practice questions on the problem set.
