http://www.differencebetween.com/difference-between-inertia-and-vs-mass/
"For classical mechanics, mass is a property of the object itself but inertia is a property of the motion as well as the mass."
I don't believe this. It seems to me that mass is an accident using the word in the substance and accident philosophy term.
When an object moves at close to c the mass of the object increases but the amount of matter doesn't increase. There is still the same number of protons and electrons as when the velocity is much lower.
I believe that mass is a measure of the internal motion of the substance, the matter.
As we all know nowadays but wasn't know in the time of Newton, there in an awful lot of internal motion in materials. Specifically, closed path motion, or to simplify things, circular motion, rotational motion.
to be continued
Tuesday 24 May 2016
Monday 23 May 2016
D2O in clay
Since pore water in clays can reach pressures below ambient of up to pF 7 it seems possible that using D2O in clay could be a candidate for cold fusion.
Using the deuterium as heavy water rather that individual atoms seems more likely to be successful.
To draw an analogy, individual deuterium atoms are like pairs of wild horses charging around all over the place. An encounter with a second pair at the right orientation for the magnetic field to overcome the coulomb barrier has a low probability of success. Also, because the process is random there is a possibility of generating higher bursts of energy which are damaging.
Coupling the horses to the oxygen carriage means that the orientation can be controlled. Encounters are no longer random but can be organised by channeling the heavy water molecules along streamlines in the high pF regions between the clay minerals.
To achieve this one needs to choose the clay mineral which give the pore water a linear structure, i.e that of the ice vapour pressure phase which has the equation of state:
P = (((V)4)4)4
As you can see, the vapour in this state is under the first three orders of reduced Casimir compression.
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