Tag: einstein

James Clerk Maxwell

Published on by Russ BowmanLeave a comment

When most of us think of really smart folks, names like Albert Einstein, Carl Sagan, Stephen Hawking, or Richard Feynman often pop up. It’s interesting that, when THOSE folks thought about really smart folks, one name repeatedly came to mind:

  • “Maxwell’s equations have had a greater impact on human history than any ten presidents.” – Carl Sagan
  • “From a long view of the history of mankind — seen from, say, ten thousand years from now — there can be little doubt that the most significant event of the 19th century will be judged as Maxwell’s discovery of the laws of electrodynamics.” – Richard Feynman
  • “Maxwell is the physicist’s physicist.” – Stephen Hawking
  • “The special theory of relativity owes its origins to Maxwell’s equations of the electromagnetic field.” – Albert Einstein
  • “The work of James Clerk Maxwell changed the world forever.” – Albert Einstein (again)

If you follow the EXAIR blog, you may recall that we’ve written more than a couple of entries on James Clerk Maxwell…here, here, and here, just to point out a few. We, of course, all like to point out a thought experiment that he devised regarding a potential loophole in the 2nd Law of Thermodynamics – a “friendly little demon” that could separate a theoretical chamber of gas (consisting of molecules with different kinetic energies) into two sub-chambers: one with all the faster moving (e.g., higher temperature) molecules, and another with all the slower moving (e.g., lower temperature) molecules.

Fun fact: When Maxwell first proposed this thought experiment in a letter to Lord Kelvin, he called it a “finite entity”. Lord Kelvin (much to Maxwell’s chagrin) started calling it a “demon” and the name stuck.

In what MAY be one of the grandest of coincidences in science, the work of this “finite entity” or “demon” is uncannily similar to that of one of the more interesting compressed air operated devices: the Vortex Tube:

When compressed air flow enters, a spinning motion is imparted by the Generator. When the spinning flow reaches the end of the Vortex Tube, a portion is forced to change directions and continue spinning, in the opposite direction, inside the outer spinning flow. When it does so, it gives off energy in the form of heat. The net result is, the air entering at a given temperature is separated into two distinct air streams: one hot, and one cold.

Now, us compressed air aficionados aren’t the only ones who’ve happened upon latter-day incorporations of Maxwell’s thought experiment. Information theory enthusiasts have implied a correlation with the principle of erasure, and scientists at the University of Oxford designed an experiment with a light-powered gate that seems to validate the idea (“How Maxwell’s Demon Continues to Startle Scientists”, Quanta Magazine, 4/22/2021).

I’ve been with EXAIR Corporation for just shy of eleven years now, and every time I hook up a Vortex Tube in the Efficiency Lab, I still recall the wonder of seeing one in action the first time. Considering that this is a 20th Century innovation (and the information theory & light-powered gate experiments are 21st Century), it’s equally impressive to keep in mind what else was going on in the world when Maxwell devised this thought experiment in 1867:

  • At the beginning of March, Nebraska is admitted as the 37th U.S. State. And at the end of the month, the U.S. finalizes the purchase of Alaska from Russia.
  • Alfred Nobel gets a patent for dynamite in the United Kingdom, in May.
  • The first school for dentistry, the Harvard School of Dental Medicine, opens.

And…in case you were wondering, EXAIR Application Engineers also have a list of folks they consider to be really smart folks. If you’re curious, click here.

Russ Bowman, CCASS

Application Engineer
EXAIR Corporation
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James Clerk Maxwell statue photo courtesy of trailerfullofpix & dun_deagh. Creative Commons license.

The Scientific Legacy of James Clerk Maxwell

Published on by Jordan T ShouseLeave a comment

On June 13, 1831 at 14 India Street, in Edinburgh Scotland James Clerk Maxwell was born. From a young age his mother recognized the potential in James, so she took full responsibility of his early education. At the age of 8 is mother passed away from abdominal cancer, so his father enrolled him in the very prestigious Edinburgh Academy.

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James was fascinated by geometry at a early age, many times learning something before he was instructed. At the age of 13 he won the schools mathematical medal and first prize in both English and poetry. At the age of 16 he starting attending classes at the University of Edinburgh, and in 1850 he enrolled at the University of Cambridge.

 

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The largest impact he had on science were his discovery’s around the relationship between electricity, magnetism, and light. Even Albert Einstein credited him for laying the ground work for the Special Theory of Relativity. He said his work was “the most profound and the most fruitful that physics has experienced since the time of Newton.”

Maxwell also had a strong interest in color vision, he discovered how to take color photographs by experimenting with light filters.

But here at EXAIR we are very interested in his work on the theory that a “friendly little demon” could somehow separate gases into hot and cold flows, while unproven in his lifetime, did actually come to fruition by the development of the Vortex Tube.  Which does just that.

How A Vortex Tube Works

So here’s to you, James Clerk Maxwell…may we continue to recognize your brilliance, and be inspired by your drive to push forward in scientific developments.

Jordan Shouse
Application Engineer
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Photo credit to trailerfullofpix & dun_deagh

Real Heroes Of Science: James Clerk Maxwell

Published on by Russ BowmanLeave a comment

People who watch way too much TV (like me) will certainly remember the “Real Men of Genius” commercials.  Here’s one of my personal favorites:

Local radio stations all over the country made parodies of these, as did sketch comics.  While trying to come up with something for my weekly blog, I saw that today was the anniversary of the passing of 19th century physicist James Clerk Maxwell.  So, if you’ll try to keep the background music from the video above playing in your head while you read this, let’s see if I can pay proper tribute:

James Clerk Maxwell…even though Albert Einstein is famous for the Special Theory of Relativity, he credited YOU for laying the groundwork.  You not only theorized the relationship between electricity, magnetism, and light, but you also proved it mathematically…so Albert didn’t have to.  He said your work was “the most profound and the most fruitful that physics has experienced since the time of Newton.”

Singer: Albert Einstein pretty much called you an “Einstein” the way we call geniuses “Einsteins.”

Professor Maxwell…you devoted your life to learning.  About EVERYTHING.  As if solving Einstein’s problem with the Theory of Relativity (40 years before he knew he had a problem with it) wasn’t enough, you decided to find out what the rings of Saturn were made of.  Over 100 years before we could send the Voyager spacecraft to find out for sure.  And you were right.

Then you discovered how to take color photographs by experimenting with light filters.

Singer: Not only did you tell us what Saturn’s rings were made of, we have color photographs of them thanks to you….

James Clerk Maxwell…your theory that a “friendly little demon” could somehow separate gases into hot and cold flows, while unproven in your lifetime, did actually come to fruition by the development of the Vortex Tube.  Which does just that.

Singer: That’s right, I just drew a straight line from Maxwell’s Demon to EXAIR’s Vortex Tube & Spot Cooling Products!

So here’s to you, James Clerk Maxwell…may we continue to recognize your brilliance, and be inspired by your drive to push forward in scientific developments.

Singer (building to final crescendo): James Clerk Maxwell, a Real Hero Of Sci-i-i-i-i-ence!

If you’d like to hear the musical parts of this actually get sung, or if you’d like to find out more about Vortex Tube products and their uses (it might be best to stick with that second part actually,) give me a call.

Russ Bowman
Application Engineer
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