the skinny--
the molecular harmonics of a molecule, are related to the number of collisions the molecule has, with others in it's make-up, and the molecules natural structure( "h20" has 1 "h" and 2 "o's")--
this is explained, if you envision a barrel being struck by a mallet, or a bumper in a "pin-pall" game, the "harmonic resonance" of the barrel, or bumper, changes, the more strikes per-second, that the barrel, or bumper, encounters per-second...thus, acting like a drum, or "tuning fork"...
if we see two molecules as "tuning forks", and then imagine striking a high pitched "tuning fork", and holding it up in the air...then immediately afterward, we strike a slightly lower pitched( lower "harmonic"), "tuning fork", and then hold them next to each other, the two should "harmonize", or vibrate equally, soon after being held closely together...essentially, i believe this concept is true of molecules as well...meaning, when one vibrating at 10( collisions per-second), strikes one that is moving at 11( collisions per-second), the two are "harmonized", or equalized( from 11, to 10, or close...10.2 perhaps??)--
summary--
i believe, in this way, a molecule with a low "molecular harmonic( less collisions per-sec), that enters the fray of collisions, with a group of molecules with a higher "molecular harmonic", that all the other molecules equalize, with the molecule that has the lowest "harmonic"--
this shows the process of "cooling" in thermo-dynamics, very well, similar to a drop of red dye, placed into a glass of clear water...the dye is evenly distributed, throughout the glass of water, until it turns an even shade( pink)--
the point--
i suggest that temperature is due to "molecular make-up"( "h20" has 1 "h" molecule and 2 "o" molecules), and that, molecular vibration( "harmonics"), is at different rates, per number of collisions per-second, of all molecules in creation--
i feel this principal relates greatly to thermo-dynamics( see "thermo-dynamics front to back" post, for more details)--
best wishes, john kruschke--
(cs)
the molecular harmonics of a molecule, are related to the number of collisions the molecule has, with others in it's make-up, and the molecules natural structure( "h20" has 1 "h" and 2 "o's")--
this is explained, if you envision a barrel being struck by a mallet, or a bumper in a "pin-pall" game, the "harmonic resonance" of the barrel, or bumper, changes, the more strikes per-second, that the barrel, or bumper, encounters per-second...thus, acting like a drum, or "tuning fork"...
if we see two molecules as "tuning forks", and then imagine striking a high pitched "tuning fork", and holding it up in the air...then immediately afterward, we strike a slightly lower pitched( lower "harmonic"), "tuning fork", and then hold them next to each other, the two should "harmonize", or vibrate equally, soon after being held closely together...essentially, i believe this concept is true of molecules as well...meaning, when one vibrating at 10( collisions per-second), strikes one that is moving at 11( collisions per-second), the two are "harmonized", or equalized( from 11, to 10, or close...10.2 perhaps??)--
summary--
i believe, in this way, a molecule with a low "molecular harmonic( less collisions per-sec), that enters the fray of collisions, with a group of molecules with a higher "molecular harmonic", that all the other molecules equalize, with the molecule that has the lowest "harmonic"--
this shows the process of "cooling" in thermo-dynamics, very well, similar to a drop of red dye, placed into a glass of clear water...the dye is evenly distributed, throughout the glass of water, until it turns an even shade( pink)--
the point--
i suggest that temperature is due to "molecular make-up"( "h20" has 1 "h" molecule and 2 "o" molecules), and that, molecular vibration( "harmonics"), is at different rates, per number of collisions per-second, of all molecules in creation--
i feel this principal relates greatly to thermo-dynamics( see "thermo-dynamics front to back" post, for more details)--
best wishes, john kruschke--
(cs)
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