That is incredible. So, you will be able to make devices that do quality control on food products that pass through a conveyor, and automatically be able to reject hazardous meat or produce. Reduced cost of gas detectors in surface and undeground mines, as well as detectors that can analyze samples in real time in the oil and gas industries. Also, this will be a boon for radioastronomy, and 6G consumer electronics. Control dumb devices real time with off board control stations in real time. Hugely important research.
43:38 H2S is extremely toxic, incidentally, for a correction to that chart. The toxicity danger is in fact much more severe than the flammability danger. But other than that, great lecture.
That is incredible. So, you will be able to make devices that do quality control on food products that pass through a conveyor, and automatically be able to reject hazardous meat or produce. Reduced cost of gas detectors in surface and undeground mines, as well as detectors that can analyze samples in real time in the oil and gas industries. Also, this will be a boon for radioastronomy, and 6G consumer electronics. Control dumb devices real time with off board control stations in real time. Hugely important research.
Fascinating! Thank you!
43:38 H2S is extremely toxic, incidentally, for a correction to that chart. The toxicity danger is in fact much more severe than the flammability danger. But other than that, great lecture.
right
thanks for this lecture
Wow, can't wait until atomic clock chips are standard on Arduino and Raspberry Pi boards 😉 Enjoyed the presentation. 👍
That's what I call research that needs to be funded without even thinking about it
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How can I get the full document dear professor ?