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====== Heat and Temperature ======

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[[..:..:prereq20:eepre:eeheatandtemp|Link to Prereqs]]

===== In-class Content =====

====Lab: Ice Calorimetry Lab====
[[..:..:activities:eeact:eeice|Link to Ice Calorimetry Lab]]

**Lab Highlights**
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====SWBQ: Comparing Thermodynamic Properties====
[[swbq:smsw:eeswthermoterms|Link to Comparing Thermodynamic Properties Small White Board Question]]

====Lecture: Dulong and Petit Rule (5 minutes)====
  * Briefly introduce the rule of Dulong and Petit: the specific heat multiplied by the atomic weight of all substances should be approximately equal
  * Emphasize that this is only a general rule or approximation
  * This topic is often skipped and is not necessary for the rest of the curriculum, but does tie in quite nicely to the [[..:..:activities:eeact:eeice|Ice Calorimetry Lab]] below.

==Lecture notes from Dr. Roundy's 2014 course website:==

In 1819, shortly after Dalton had introduced the concept of atomic weight in 1808, Dulong and Petit observed that if they measured the specific heat per unit mass of a variety of solids, and divided by the atomic weights of those solids, the resulting per-atom specific heat was essentially constant. This is the Dulong-Petit law, although we have since given a name to that constant, which is $3R$ or $3k_B$, depending on whether the relative atomic mass (atomic weight) or the absolute atomic mass is used.
This law isn't precisely true, and isn't always true, and is never true at low temperatures. But it captures some physics that we will later call the equipartition theorem. We will write Dulong-Petit's law as:
$$C_p=3Nk_B$$
where $N$ is the total number of atoms.

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[[..:..:hw20:eehw:eeheatandtemp|Link to Homework]]*/

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