Richard Feynman Side Hustles
(twitter.com)185 points by tzury 2 days ago
185 points by tzury 2 days ago
I feel like the company might have been Yellow Springs Instrument (YSI, now a division of Xylem).
The dissolved oxygen sensor (the Clark electrode) was invented by Dr. Lee Clark at Antioch University (Yellow Springs, OH) and commercialized by YSI in the 1960s. A friend of mine worked at YSI from the late 60s thru the 80s on biosensors (glucose and lactic acid, using the Clark electrode as the basis) and worked directly with Dr. Clark.
Carl Feynman was born in 1962, according to what I'm reading, so if he was 14 that would have put this story in the time period early in the commercialization of these sensors.
Some good background:
https://derangedphysiology.com/main/cicm-primary-exam/respir...
https://www.anaestheasier.com/the-clark-electrode/
I'll have to hit my friend up to see if he knows anything about this. I'm certain he'd get a kick out of reading this, if nothing else.
Say hi to Dave Chapelle while you're there! ;)
Serious question: Is Dr. Clark the guy who invented the modern soda can pulltab, too? Someone who lives in YS invented it, and made a kajillion dollars by solving the problem of dangerous, sharp-edged pulltabs littering ... everywhere.
People are giving such bizarre examples for why it helped.
Just think of a thermometer.
If it removes heat as it measures it (consumes oxygen) then it will measure everything too cold if the system can't replace the heat that's removed (this is like having an insulated thermometer).
If your thermometer replaces heat as it removes it it solves this issue.
When is this an issue for a thermometer? If your thermometer is too large in terms of heat capacity for the objects you're measuring the temperature of.
many of the older analog low impedance multimeters drew so much current that they affected the circuits they were trying to test, requiring a high impedance digital multimeter instead. it's a similar problem, and i'm sure the physicist was aware of it, but didn't like to admit it.
I had to read this twice to understand it. Stated succinctly, it sounds like the company's sensor measured the rate of flow of oxygen through the sensor, which would give a reduced reading if the cross section is obstructed.
Feynman's sensor, by contrast, directly measured the concentration of oxygen in the sensor, which gives the same result every time once the sensor is at equilibrium with the environment.
Off-topic, but I was interested to read Carl's Twitter bio[0], "I’ve spent a lifetime switching my Special Interest every year or two. By now I’m surprisingly knowledgeable in a lot of fields— a skill now obsoleted by AI."
That hits a bit close to home!
Saw this twitter response,
> Do you have a similar speaking cadence as your dad? I can almost hear this in his voice.
I experience the same. Wonder if Carl asked chatGPT to write it in Richard Feynman style? :/
I troll; Regardless, it made me happy to hear Richard in Carl.
To use an analogy with some metaphors: The sensor is like a sealed room with a screen window that only lets in oxygen. To get a reading, every molecule that enters is smashed to create a tiny spark of electricity. However, because the oxygen is destroyed to create that spark, it creates a suction effect, causing more oxygen to rush into the room to fill the void. This creates a major flaw: if gunk builds up on the screen, it slows down the flow of incoming oxygen. The sensor, which only counts sparks per second, is tricked into thinking the oxygen level outside is low, when really the window is just dirty.
By adding a third electrode to replace the oxygen every time one is smashed, you maintain a perfect balance and eliminate that suction. Because the room stays full, the sensor no longer relies on the speed of the oxygen rushing in; it simply measures the steady state of the oxygen already there. Even if gunk gets on the window, the sensor won't be starved of a reading. It might take a few extra seconds for the levels to settle, but the final number will be 100% accurate because the sensor is no longer emptying its own room to get a count.
I still don't get it. The outside is dirty, right? He said in his post "You dip this probe into beer, sewage, or canned food a-stewing". So when you say "when really the window is just dirty" I don't get it - yes it will always be, because that's what it is placed in, no?
A dirty window only ruins the reading if you are measuring the speed of the oxygen passing through it. The three electrode design stopped measuring speed and started measuring balance. Unless the gunk is a total airtight seal (which is rare on the scale of an oxygen molecule), the sensor will eventually reach the right answer, whereas the old version would fail.
I agree. It's not clear how adding a sensor "so that it adds back an oxygen molecule" works. shrug
I think this was primarily about speeding up the measurement time. With just two electrodes you had to wait for the device to achieve equilibrium with the material being measured. If the concentration of oxygen on the probe side of the barrier was higher or lower than the material side you would get false measurements, particularly in low oxygen scenarios because you have oxygem trapped in the probe.
By keeping the state of oxygen inside the probe constant and replacing consumed molecules you now can measure almost instantly.
Yes but how do you do that? that magical third electrode sounds harder to make than the original problem.
Edit: I think I get it now, it's a chemical reaction. By applying a voltage with some polarity to the 3rd electrode you can run the reaction in reverse. Still very hard to achieve because you have to make sure the reactions happen at the same rate with the same efficiency, which is far from trivial. This must be a very high end sensor for all this effort to make sense.
Because then it doesn't alter the side of the membrane where it does the reading (plus one minus one equals zero). That makes the measurement more accurate.
Specifically, if you assume a partial pressure of Oxygen and of all other gases on the electrode-side of the diffusion membrane, then you'll only see a certain number of "ionization events" per time, and you're limited in how much electrical signal you get by how fast oxygen can diffuse across the membrane. This is likely driven by maintenance of a partial pressure within the membrane. However if you re-ionize the oxygen that you deionized, then the partial pressure is much closer to equilibrium, and therefore the partial pressures are only dependent on the amount of oxygen outside of the membrane instead of being dependent on both the ionization rate and the recovery rate through the membrane. It probably makes the calculation a lot faster and more closely dependent on the environmental presence of oxygen which is what you want.
You're not really making things clearer.
What does "adds back an oxygen molecule" mean?
The current is measuring the rate of the reaction. With the two-terminal design the rate of the reaction is proportional to the rate of diffusion of the oxygen into the area where the reaction is taking place, which is related to the oxygen concentration around it but also can be affect by other things. With the third electrode, the current is proportional to the concentration of oxygen in the area around the sensor directly, which will equalise with its surroundings much more consistently than the rate of diffusion.
(A quick google brings up this document which describes the principle. No idea if this is the company in the story: https://semeatech.com/uploads/Tech_Docs/AN%20161205.pdf )
This way you're measuring change in oxygen concentration. As more oxygen comes into the compartment in order to equalize with the outside you consume and at the same time produce more oxygen. You measure the change in rate of oxygen consumption/production. It is always consuming/producing oxygen but the rate changes with the concentration.
At least that's what I assume.
I think of it differently.
Before, you measured diffusion rate of oxygen and inferred oxygen concentration from that (the concentration outside the chamber is always greater than the concentration inside). Dirty membranes etc all changed the rate of diffusion, which caused issues.
After you measure oxygen concentration directly (the concentration inside and outside the chamber are always the same).
That's very cool and edgy but (Richard) Feynman didn't say this.
While I don't agree with the "this shouldn't be on HN" part, people thinking Elon is a Nazi isn't exactly unreasonable. He literally sieg heil'd an audience at Trump's inauguration. Twice. Call it trolling or whatever you like, but he did it and the outcomes for such an act are ... predictable.
The way people continue to use X is a perfect example of Arendt's banality of evil: that moral wrongs can be enabled by ordinary people, acting through conformity, careerism, convenience, and thoughtlessness.
They don't have any deep ideological commitment or overt cruelty, they just don't care enough. They justify themselves with claims such as "it's the way things are," "not my role," "everyone does it", or that it doesn't really make a difference.
But if everyone on X that doesn't explicitly support fascism and Nazism stopped using it, it would make an immediate difference. X would turn into something more like Truth Social.
So do you have to be a god tier Nobel Laureates to get this kind of gig where you just learn about a business and then offer random suggestions that might or might not help them and charge obscene fees for the privilege?
You definitely don't have to be god tier anything, you just need to know at least a little more than the companies you are consulting for.
This kind of work has been my primary income for the last 4 years or so. Nowhere near on the same level as Feynman, but I know enough about enough other things that I get a lot of reputational referrals.
>you just need to know at least a little more than the companies you are consulting for.
sometimes (i'd argue often, actually), you don't even need that. simply having an outside/fresh perspective and the fact that you aren't part of any of the existing groups/silos is valuable.
Often the most useful thing is just listening to the right people in the company. I wouldn't be 100% surprised if someone in the company in the story had already had the idea for the third electrode, but it took the suggestion from the high-paid consultant to get it taken seriously.
I imagine you can also start by doing the same thing for a low cost, or for free. Find a local business that’s interested, give your advice, build reputation, repeat.
I think it's good to give out 1% as free advice.
You can be all over the ball park and people always get their money's worth :)
If you do it where the client can take it to the bank, they will often come back to see what happens with those kind of returns if they actually invest something substantial.
I think the story sounds fake because they listened to him.
Having the ideas is easy. Persuading and organization to change is not.
Perhaps it’s a cultural difference between the middle of the 20th century and now.
I’m not saying it is fake - I’m saying that’s the most absurd part.
Nope! There are consulting companies all over the place filled with bids and not filled with Nobel laureates!
Ergo...
None that offer that level of work life balance though…
If you want to read the replies without an account:
https://xcancel.com/carl_feynman/status/2016979540099420428
https://nitter.net/carl_feynman/status/2016979540099420428