Editing René Descartes (section)

== Meteorology ==
Within ''[[Discourse on the Method]]'', there is an appendix in which Descartes discusses his theories on [[Meteorology]] known as ''Les Météores''. He first proposed the idea that the elements were made up of small particles that join together imperfectly, thus leaving small spaces in between. These spaces were then filled with smaller much quicker "subtile matter".<ref name=":02">{{Cite book |last=Frisinger |first=H. Howard |url=https://www.worldcat.org/oclc/1694190 |title=The history of meteorology to 1800 |date=1977 |publisher=Science History Publications |isbn=0-88202-036-6 |location=New York |oclc=1694190}}</ref> These particles were different based on what element they constructed, for example, Descartes believed that particles of water were "like little eels, which, though they join and twist around each other, do not, for all that, ever knot or hook together in such a way that they cannot easily be separated."<ref name=":02" /> In contrast, the particles that made up the more solid material, were constructed in a way that generated irregular shapes. The size of the particle also matters; if the particle was smaller, not only was it faster and constantly moving, it was more easily agitated by the larger particles, which were slow but had more force. The different qualities, such as combinations and shapes, gave rise to different secondary qualities of materials, such as temperature.<ref name=":12">{{Cite book |last=Martin |first=Craig |url=https://www.worldcat.org/oclc/794700393 |title=Renaissance meteorology : Pomponazzi to Descartes |date=2011 |publisher=Johns Hopkins University Press |isbn=978-1-4214-0244-4 |location=Baltimore |oclc=794700393}}</ref> This first idea is the basis for the rest of Descartes's theory on meteorology.

While rejecting most of [[Aristotle]]'s theories on meteorology, he still kept some of the terminology that Aristotle used such as vapors and exhalations. These "vapors" would be drawn into the sky by the sun from "terrestrial substances" and would generate wind.<ref name=":02" /> Descartes also theorized that falling clouds would displace the air below them, also generating wind. Falling clouds could also generate thunder. He theorized that when a cloud rests above another cloud and the air around the top cloud is hot, it condenses the vapor around the top cloud, and causes the particles to fall. When the particles falling from the top cloud collided with the bottom cloud's particles it would create thunder.<ref name=":12" /> He compared his theory on thunder to his theory on avalanches. Descartes believed that the booming sound that avalanches created, was due to snow that was heated, and therefore heavier, falling onto the snow that was below it.<ref name=":12" /> This theory was supported by experience "It follows that one can understand why it thunders more rarely in winter than in summer; for then not enough heat reaches the highest clouds, in order to break them up."<ref name=":12" />

Another theory that Descartes had was on the production of lightning. Descartes believed that lightning was caused by exhalations trapped between the two colliding clouds. He believed that in order to make these exhalations viable to produce lightning, they had to be made "fine and inflammable" by hot and dry weather.<ref name=":12" /> Whenever the clouds would collide, it would cause them to ignite, creating lightning; if the cloud above was heavier than the bottom cloud, it would also produce thunder.

Descartes also believed that clouds were made up of drops of water and ice, and believed that rain would fall whenever the air could no longer support them. It would fall as snow if the air was not warm enough to melt the raindrops. And hail was when the cloud drops would melt, and then freeze again because cold air would refreeze them.<ref name=":02" /><ref name=":12" />

Descartes did not use mathematics or instruments (as there were not any at the time) to back up his theories on Meteorology and instead used qualitative reasoning in order to deduce his hypothesis.<ref name=":02" />