Two interesting little anomalies in last nights data that I am having a tough time explaining.
The Ambient fell suddenly just after midnight
The Excess power reacted as expected. The P_xs continued to look positive for the next 8 hours, when I had expected that it would equilibrate back to where it started after 45 minutes, though. Perhaps I am wrong.
But why did the Internal cell temp go up??
The Celani Wire Impedance just continued to decrease during this time.
Curious that it didn't restabilize and that the temp inside went opposite the temp outside.
Then, later on, after we had gone up in power, we replaced the room heater and the T_ambient rose again sharply.
And, the P_Excess went down again, as we mathematically expect when the air changes faster than the cell. And it appeared to mostly recover.
Now this is the unusual part. When the Ambient temp rose 1 degree, the internal cell temperature dropped 2.5!
And then it recovered again! Meanwhile, the impedance dropped VERY slightly (probably a reflection of the temperature dropping)
The dropping in the impedance resulted in the Power in going up 15 or 20 mW. And still, the temperature dropped significantly and recovered.
This seems to imply that either something endothermic suddenly happened, or something exothermic ended briefly.
Curious that the temp inside went opposite the temp outside. Any ideas?
Comments
The rest is time delay effects from heating and cooling. Someday maybe a constant power supply control or a constant impedance control will be tested. For now it appears correct, good work!
great job, keep it up!
I*d like to express my joy and admiration, watching these wonderful scientiffic research LIVE with all the great comments from people actively helping to improve the experiment.
Thank you all.
and make it watertight :)
144.206.159.178/.../...
@David
You do not need to apologise for posting regularly when you are doing such a great job!
Thanks to all for your thinking
We are using DC, so in this case Impedance just means the same thing as resistance. We labeled that column generically in the power meter and haven't customized it for this experiment.
I absolutely love the idea of adding annotations as we do anything, change anything, or observe anything. That feature has been on my list for a long time, but it all takes time to accomplish. We will be open sourcing the software and publishing the API for others to use next week. Hopefully we can get some good assistance.
I will blow warm air on the instrumentation boards yet this afternoon when it settles from a tiny change I just made in the power.
In the not too distant future we will have a temperature stabilized air calorimeter.
Thanks for all the brainstorming. If I missed any good suggestion, I will try to pick them up over the next day.
Let me rephrase the question:
Is AC used in these experiments or DC? Because Celani was definitely using DC.
Well, resistance and impedance both basically boil down to R=V/I. But only resistance can "burn off energy" in the form of heat. Impedance includes the resistance but also the reactance of the wire, which is how it changes in response to frequency. AC is definitely a little more complex than a DC current.
@ David Jones,
That's another good idea. That doesn't change the P_xs consideration, other than keeping convection down would allow us to properly detect any excess heat better, as it isn't being lost before we can monitor it. Could explain the rise, but all this of course depends on what happened at 12 am (a heater turning down since people aren't supposed to be around makes sense though), and how well isolated from air flow their cell is.
Impedance implies alternating current, right? Celani uses direct current though, or at least he did during the NIweek demo.
Now, I will shut up
So many mysteries to solve; science is a constantly unfolding detective's novel.
Your temperature probe boxes may have the facility to do a differential reading from two probe wires - by-passing the temperature reference control circuit.
Of course this might not be the problem at all...
now whether it is artifact or fact... but the causality will be clearer.
I'm also interested in adding click and drag to zoom capacities. I think it would really improve the ease of use in terms of exploring the data.
I think these two things combined would aid interpretation. Also perhaps clearer labels and information regarding the experiment in the data viewer itself.
What does this all imply? T_ambient fluctuations should not be expected to affect the temperature of the cell in an inverse way. I would also say that while T_ambient is part of the excess power calculations, the affect it's having on the excess power trace is much larger than it should. Or put another way, that the changes in excess power calculation are too big to be simply from T_ambient values alone. Easy way to check that would be to dissect the equation and run the numbers.
But, it seems like the cell, at these internal temperatures, is very sensitive to heat flux. The colder room allowed a better flux, and it may be the -flux- that affects the reaction events and readings as well as (or more than) absolute.
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