Ed— I did not say temperature was the source of cracks. I said it may help expand the useful crack populational. This could happen by changing the vibrational frequency of any given crack structure closer to its resonant frequency, making LENR at that crack likely.
Bob From: Edmund Storms Sent: Saturday, March 22, 2014 12:18 PM To: [email protected] Cc: Edmund Storms Subject: Re: [Vo]:Re: 2 Modes of the FPE Bob, temperature is not the source of cracks or have any role in their function. Temperature changes the rate at which hydrogen is delivered to the crack. It is important to understand the role of each variable. You can find an explanation at http://lenr-canr.org/acrobat/StormsEexplaining.pdf. Ed Storms On Mar 22, 2014, at 1:04 PM, Bob Cook wrote: Ed-- Engineering resonances associated with any given crack characteristic associated with LENR activation may help expand the useful crack population. Rossi seems to use temperature as a control. Bob From: Edmund Storms Sent: Saturday, March 22, 2014 10:46 AM To: [email protected] Cc: Edmund Storms Subject: Re: [Vo]:2 Modes of the FPE Yes, getting a wide variety of sizes is easy. Getting enough of the right size in this distribution is the problem. Only a few of the right size will not give enough energy to be detected. When radiation or tritium is used to detect the occurrence of LENR, the effect can be seen using fewer active sites. However, these methods hav e not been used very often, probably because the tools and skill are not common. Cracks either want to grow larger or sinter and disappear. As a result, production of LENR is unstable. This makes the effect occur for brief times, but not long enough to be sure LENR is actually happening rather than a random event. Ed Stormss On Mar 22, 2014, at 11:28 AM, James Bowery wrote: On Sat, Mar 22, 2014 at 11:35 AM, Edmund Storms <[email protected]> wrote: Based on my theory, the active material are nano-cracks. Making these at the require size is the challenge. Cracks can be made many different ways, but getting the right size is the problem. Might there be a technique that generates a wide distribution of crack sizes?
