LENR based on SO(4) physics model

  • Add to wish list:

    - what is charge

    - why two magnets attract or repel

    - what is gravity

    - cause of inertia


    The more we keep avoiding this core topics and year them as just forces the more we will see nonsense like recent 'gravity out of uncertainty' paper.

  • Add to wish list:

    - what is charge

    - why two magnets attract or repel

    - what is gravity

    - cause of inertia

    These are more philosphical questions, perhaps better answered by a philosopher like Andrea Rossi. Here are my foolish answers.


    - what is charge

    Controversial. It has it's pluses and it's minuses.

    - why two magnets attract or repel

    Odor (as explained in Quantum Aromadynamics QAD)

    - what is gravity

    A really serious situation like how much the ecat energy density improved last week

    - cause of inertia

    Inertia is caused by tiny bosons called Minutia.

  • be good to see any prediction experimentally verifiable not predicted by the standard model (


    I am not sure if Holmlid's cracking of the proton by laserlight

    is predicted by the Standard Model..


    I can sort of follow Wyttenbach's calculations and check the spreadsheet and get 446KeV excess


    but the next page of SO(4) depictions might need some SO(4) 4 d.. tuition. for me.

    The proton, electron structure, its resonances and fusion products (NPP2.2)

    https://www.researchgate.net/p…context=ProjectUpdatesLog



    The H*-H* structure alone is a dimension above Bethe's simple conception of the evanescent diproton in ~1939

  • CERN- new measurement of proton mass.


    Preface

    The fact that the neutron is slightly more massive than the proton is the reason why atomic nuclei

    have exactly those properties that make our world and ultimately our existence possible. Eighty

    years after the discovery of the neutron, a team of physicists from France, Germany, and Hungary

    headed by Zoltán Fodor, a researcher from Wuppertal, has finally calculated the tiny neutron-proton

    mass difference. The findings, which have been published in the current edition of Science, are

    considered a milestone by many physicists and confirm the theory of the strong interaction. As one

    of the most powerful computers in the world, JUQUEEN at Forschungszentrum Jülich was decisive

    for the simulation. [10]

    The diffraction patterns of the electromagnetic oscillators give the explanation of the Electroweak

    and Electro-Strong interactions. [2] Lattice QCD gives the same results as the diffraction patterns

    which explain the color confinement and the asymptotic freedom.

    The hadronization is the diffraction pattern of the baryons giving the jet of the color – neutral

    particles!

    Most precise measurement of proton mass

    What is the mass of a proton? Scientists from Germany and Japan have made an important step

    toward better understanding this fundamental constant. By means of precision measurements on a

    single proton, they were able to improve the precision by a factor of three and also correct the

    existing value.


    Measurement_of_Proton_Mass.pdf

  • CERN- new measurement of proton mass.


    There is one problem: Carbon is set as default and thus not really measured. In a true comparative measurement both masses must be measured with the same method or at least an other nucleus must be measured too to validate the method. So this measurement will need some more confirmation. Just an anecdote so far.