Re: [Vo]:My response to the demise of Coolescence
Jed is convincing... On Nov 2, 2017 12:40 PM, "Jed Rothwell" wrote: > I regret to announce that Coolescence has closed their doors. They never > were able to replicate excess heat. I think they ran out of money, and > perhaps they ran out of gumption. That would be understandable. > > Over at CMNS, Ed Storms posted a melancholy comment about this. We are not > supposed to quote CMNS but in this case I will take the liberty of quoting > a short portion: > > >> The skeptics will say, "Obviously, the better and more carefully the >> studies are done, the less likely the false claims would result." How can >> we respond to such a conclusion? >> > > > Since I can quote myself as much as I like, here is what I wrote in > response. > > > . . . That is a good question. I think the answer is as follows -- > > The most careful studies were done by people such as Mel Miles showed a > positive effect. > > Coolescence tried to replicate Miles, but they failed. Miles says this is > because they made mistakes in the replication. You can ask him for details. > > I conclude that they made mistakes in this replication, and in the other > replications they attempted. I assume the original studies were positive > and correct. Coolescence reported their results correctly, and these > results were negative. The disconnect is in the experimental materials or > procedures, not in the reporting. > > Here is why I reached this conclusion and why I think it is plausible. > > > *Many Replications Fail Because This Experiment is Difficult* > > There were many failed replications in 1989, including many done by > experienced scientists in well-equipped major laboratories. In most cases > these failures occured because the scientists were not electrochemists; > they did not consult with electrochemists, and they made elementary > mistakes. I described an example on p. 10 and 11 here: > > http://lenr-canr.org/acrobat/RothwellJlessonsfro.pdf > > There were some failed experiments conducted by experienced > electrochemists. In a few cases it is likely these were false negatives. > Here is a well-known example, by Lewis: > > http://lenr-canr.org/acrobat/RothwellJhownaturer.pdf > > This failure was not due to lack of skill or attention. Lewis did > excellent work. His paper is good. It has many useful suggestions. His > failure was in his analysis. > > Even people who succeeded from time to time in cold fusion often failed. > Mel Miles worked for months before getting positive results. As I wrote > here the other day, the research project at the University of Missouri has > not worked well: > > Many techniques have been described in the literature that worked a few > times spectacularly, but most of the time they do not work. They are > irreproducible. The SuperWave technique once produced, "Excess Power of up > to 34 watts; Average ~20 watts for 17 h." (http://www.lenr-canr.org/acro > bat/DardikIexcessheat.pdf) I have heard that despite strenuous efforts, > it has never done that at U. Missouri. > > > I do not think these earlier results could be an error. 20 W is a lot of > heat. With no input power it seems unlikely to me anyone would confuse zero > watts with 20 W. > > Richard Oriani told me that in his 50-year career in electrochemistry, the > Fleischmann Pons experiment was the most difficult one he did. > > Experiments and technologies that fail drastically are not uncommon. As > Beaudette pointed out, to clone the first sheep, biologists had to make > hundreds of attempts before one finally worked. Billions of dollars have > been invested in rocket technology. Every rocket launch costs millions of > dollars. Rockets carry satellites worth millions more. Despite these high > stakes, rockets often explode. The technology is not reliable. > > It makes no sense to say that cold may not exist because it is so > difficult to replicate. No one would claim that rockets do not exist > because they are unreliable. > > > *You Need A PhD in Electrochemistry* > > As far as I know, everyone who replicated cold fusion had a PhD in > electrochemistry, or they worked with people who did. I am not sure about > Storms at Los Alamos, but Los Alamos is chock-full of experts in every > subject. Coolescence may have had first-class instruments but they probably > did not have the kind of expertise on tap that Storms did. I do not know > whether anyone at Coolescence has a PhD in electrochemistry. I do not think > so. That is my impression talking to Mel Miles. If professionals at a place > like Kamiokande failed for lack of electrochemical expertise, it would not > surprise me if the people at Coolescence also failed for this reason. > > I do not know much about electrochemistry but I have spent a lot of time > editing papers about it and listening to people such as Mizuno, McKubre, > Miles, Bockris and Fleischman talk about it. They know a terrific amount > about the subject. Enough to write a textbook. Bockris *did* write an > authoritative textboo
[Vo]:My response to the demise of Coolescence
I regret to announce that Coolescence has closed their doors. They never were able to replicate excess heat. I think they ran out of money, and perhaps they ran out of gumption. That would be understandable. Over at CMNS, Ed Storms posted a melancholy comment about this. We are not supposed to quote CMNS but in this case I will take the liberty of quoting a short portion: > The skeptics will say, "Obviously, the better and more carefully the > studies are done, the less likely the false claims would result." How can > we respond to such a conclusion? > Since I can quote myself as much as I like, here is what I wrote in response. . . . That is a good question. I think the answer is as follows -- The most careful studies were done by people such as Mel Miles showed a positive effect. Coolescence tried to replicate Miles, but they failed. Miles says this is because they made mistakes in the replication. You can ask him for details. I conclude that they made mistakes in this replication, and in the other replications they attempted. I assume the original studies were positive and correct. Coolescence reported their results correctly, and these results were negative. The disconnect is in the experimental materials or procedures, not in the reporting. Here is why I reached this conclusion and why I think it is plausible. *Many Replications Fail Because This Experiment is Difficult* There were many failed replications in 1989, including many done by experienced scientists in well-equipped major laboratories. In most cases these failures occured because the scientists were not electrochemists; they did not consult with electrochemists, and they made elementary mistakes. I described an example on p. 10 and 11 here: http://lenr-canr.org/acrobat/RothwellJlessonsfro.pdf There were some failed experiments conducted by experienced electrochemists. In a few cases it is likely these were false negatives. Here is a well-known example, by Lewis: http://lenr-canr.org/acrobat/RothwellJhownaturer.pdf This failure was not due to lack of skill or attention. Lewis did excellent work. His paper is good. It has many useful suggestions. His failure was in his analysis. Even people who succeeded from time to time in cold fusion often failed. Mel Miles worked for months before getting positive results. As I wrote here the other day, the research project at the University of Missouri has not worked well: Many techniques have been described in the literature that worked a few times spectacularly, but most of the time they do not work. They are irreproducible. The SuperWave technique once produced, "Excess Power of up to 34 watts; Average ~20 watts for 17 h." (http://www.lenr-canr.org/acro bat/DardikIexcessheat.pdf) I have heard that despite strenuous efforts, it has never done that at U. Missouri. I do not think these earlier results could be an error. 20 W is a lot of heat. With no input power it seems unlikely to me anyone would confuse zero watts with 20 W. Richard Oriani told me that in his 50-year career in electrochemistry, the Fleischmann Pons experiment was the most difficult one he did. Experiments and technologies that fail drastically are not uncommon. As Beaudette pointed out, to clone the first sheep, biologists had to make hundreds of attempts before one finally worked. Billions of dollars have been invested in rocket technology. Every rocket launch costs millions of dollars. Rockets carry satellites worth millions more. Despite these high stakes, rockets often explode. The technology is not reliable. It makes no sense to say that cold may not exist because it is so difficult to replicate. No one would claim that rockets do not exist because they are unreliable. *You Need A PhD in Electrochemistry* As far as I know, everyone who replicated cold fusion had a PhD in electrochemistry, or they worked with people who did. I am not sure about Storms at Los Alamos, but Los Alamos is chock-full of experts in every subject. Coolescence may have had first-class instruments but they probably did not have the kind of expertise on tap that Storms did. I do not know whether anyone at Coolescence has a PhD in electrochemistry. I do not think so. That is my impression talking to Mel Miles. If professionals at a place like Kamiokande failed for lack of electrochemical expertise, it would not surprise me if the people at Coolescence also failed for this reason. I do not know much about electrochemistry but I have spent a lot of time editing papers about it and listening to people such as Mizuno, McKubre, Miles, Bockris and Fleischman talk about it. They know a terrific amount about the subject. Enough to write a textbook. Bockris *did* write an authoritative textbook. Here is the point: you have to know thousands of details about electrochemistry, if you get a single detail wrong the experiment may not work. You will not know why. According to Mizuno, McKubre and others, getting a PhD in electrochemistry is li