Jed's Three "better than F&P" Excess Heat from Electrolysis Experiments

Quote from Curbina

I think the author omitted any specific mention because he checked these variables and considered them in the error margin. That's what any experienced calorimetry researcher would do and should do. You say you can't assume that because the result is improbable. I say making such a mistake is improbable, or, better said, the researcher would have realized of that obvious mistake and not published anything, if that was the case.

I understand that. The LENR community expects excess heat from these experiments and so takes a different approach.

My point throughout this debate is that you should not expect those who do not think nuclear reactions at low energies from stable elements to take the same view.

And the paper itself, in this one case, does not help matters. It states for example that recombination can be assumed zero. It states that that fill-up rates are looked up from tables that depend on electrolysis current (but not temperature). None of these things prove that Staker got the experiment wrong. (what Jed needs). Whereas somone not expecting this unpredictable result would need better proof than this.

The LENR community, on evidence of its write-ups (which could be better) has been talking to itself, not to a wider scientific audience.

In this situation I think many of the complaints of prejudice against LENR papers could be a misunderstanding - they just need to be written more carefully.

ICCF24 was sating "it would be good to have a replicable and certain experiment". Part of certainty is about tying down all those "don't need to consider because..." variables. There is little cost in doing this - so I cannot understand why LENR authors do not do so.

It is not about teaching people physics. It is about complete documentation of experiments - something that can reasonably be expected when the results are so very surprising (except that to those in the LENR field they are not).

Quote from Curbina

I agree, but just to be clear, I was referring to something more general like omitting one step or using a different instrument than usual. Something noteworthy that should have been mentioned.

Anyone outside the field would say that treating evaporation as insignificant in this experiment (if you work it out - it is significant) is missing a step - not because enthalpy from evaporation is insignificant (correct) but because evaporation determines recombination and the equivalent enthalpy from recombination is significant.

Had it been considered significant the writeup would have needed to say:

The fill-up rate was worked out from electrolysis current and then corrected manually to account for variable evaporation.

(This is what Jed suggested would be done. Which would mean they did not check recombination)

or

The fill-up rate was worked out from electrolysis current. Manual adjustments were made due to differential evaporation. These were recorded and amounted to an insignificant difference (< 2cc) between control and active runs. This supports [44] showing that recombination is not significant.

(which would mean they did not check whether the active run had recombination)

or (this is sufficiently complex that you might want to expand it)

The fill-up rate required to keep meniscus levels constant was measured on the control runs and compared with the rate expected from electrolysis. The additional fill-up volume matches the expected evaporation at the measured control-run temperature to within 0.5cc. The same measurement was done on the active runs (correcting for the different active run temperature). The volume again matched that expected from evaporation to within 2cc and therefore it is certain that recombination does not significantly affect excess heat in this experiment.

(which would mean recombination was properly checked).

Each of these sentences corresponds to something different done. The last one makes the experiment more certain by showing that recombination was checked on both control and active runs. It is not significantly more work - either to check in the experiment or to write up.

In a private communication to me, Staker indicated that in this experiment evaporation was not important because it was small and in any case would make the excess heat lower than expected. I assume from that that he did not bother to measure it in the main experiment. Why should he? At the time I had not worked everything out (that in fact it could not really be called small) and I thought that very reasonable.

Both true - but the conclusion is wrong. The only check on recombination is evaporation. Unless you accurately measure fill-up volume and compare that with calculated evaporation you cannot say how significant is fill-up volume.

Finally - Jed points out that the excess temperature after input power is temporarily increased - is still anomalous at what seem to be nuclear levels and beyond that available from recombination. That is true. But it is less carefully checked result than the overall 46 day excess heat one.

No decent scientist would be happy with the safety of the results given the writeup in its current from. Carelessness over writing up recombination vs evaporation will mean that even the part of the results that (with effort) can be worked out valid even without checking for recombination will be viewed as uncertain. Why? Well, maybe during this period foam changes the heat loss - we know this depends critically on meniscus level so it might also change with foam. Given known lack of checking of something definitely significant, no-one will assume that things possibly significant are also checked.

Certainty is a high bar. LENR writers seem to alternate between "certainty is easy - everything is certain" and "certainty is an impossibly high bar, nothing we can do will meet it".

How about something in the middle: do your best to make things certain?

Jed could reasonably say - well - Staker is a modern LENR writer - he is not a calorimetrist - his main field is material science - and you would not expect the same care from him that the early and certain LENR experiments produced.

I'd agree that. But it is not what those in the LENR field say. And to convince anyone else you need a modern, replicable, certain experiment.

If you believe Staker's results are genuine what is needed to make them certain is just a bit more care in write-up and measurement - no change in apparatus.

Sorry - the comments on Staker are OT for this thread it is just I will need a good deal of free time to look at Jed's 3 best experiments and comment.

Warning: when I do it is likely Jed will not accept my issues - in the same way that he does not accept there is any issue with Staker's results. But, Jed will have the satisfaction of knowing that my (from his POV) prejudice is informed prejudice. Unless of course I find zero issues...

PS Jed - have you yet followed my reference (it contains the working from first principles, and it is mainstream maths not some whacko theory. I posted it because it is a self-contained and complete description, designed to be accessible) which shows why hypotheses that accurately predict results require less evidence than those which have less precise predictions?

That theory is used today in thousands of AI algorithms, and has been tested both theoretically and practically in thousands of research papers.

Quote from JedRothwell

It is impossible to measure the effect of evaporation during calibration, or predict it based on 220 year old physics. It is impossible to separate out the effects of recombination and evaporation, even though they have different causes and the causes are well known and have been for 200 years.

Jed, you do realise this is the exact opposite of your argument earlier on this thread, when you said evaporation could be exactly calculated?

It is possible to precisely bound evaporation based on 220 year old Physics. And, on reflection, given this is a slow experiment, I think the bound based on temperature must be pretty exact. My (modern web calculator) of reaction rates seemed to confirm that.

Quote from JedRothwell

Saying that an electrochemist would dismiss recombination is a lot like saying that a programmer would ship out a program to the customer the moment it compiled, without checking to see if it gets the right answer.

Glad you mention this.

It is actually like a programmer shipping out a program in the following case:

(1) a small change is made in one module

(2) the module changed passes unit tests for the changed module, and part-product integration tests.

(3) The full integration tests are not redone (they take a long time, and require some other conditions difficult to achieve). But the change is considered one unlikely to affect other modules, and the combination of unit tests and local integration tests seems pretty good in this case.

The software than fails in the field.

That case, and those arguments, are common. And arguing like that is a common reason for regression errors after fixes.

The analogy with software shows exactly why the care I am asking for is necessary. And also how in spite of its being best practice it is often not done.

Quote from JedRothwell

Saying that an electrochemist would dismiss recombination is a lot like

Just to be clear - the case here is not Staker dismissing recombination. He had several reasons for not thinking it significant:

• explicit (his reference [44])
• implicit - it would show up in different fill-up volume.

And these reasons could be correct. But they contain uncertainty because of the steps not included in the write-up.

Do I think recombination is actually a problem here? Not if the fill-up volumes were carefully checked, and compared with calculated evaporation, and also between control and active.

Do I know the fill-up volumes were carefully checked? No. The writeup does not say this, and implies what Jed suggested, that they should have been adjusted manually. Although since this is not what is actually said (the opposite was said), I do not actually know what was done.