Dear Yuri
Your essay is very interesting and innovative.
18 degrees is the twentieth part of a full circle. What do you think of 2o may play an important role. I, for one not know how many the basic structure of the universe (atoms, ... Galaxy ...)? I would be grateful to anyone who answers this question, even if incorrect.
Regards
Ziki
Dear Branko
I suspect 20 connected with Platonic solids dodecahedron(vertices-20) or icosahedron(faces-20)
See also Luminet http://www.cirs-tm.org/researchers/researchers.php?id=165
Regards
Yuri
Yuri,
If given the time and the wits to evaluate over 120 more entries, I have a month to try. My seemingly whimsical title, "It's good to be the king," is serious about our subject.
Jim
The most interesting exceptional structures in physics such as the E8 group and octonions are associated with the symmetries of the dodecahedron and icosahedron where the 18 degree angles rule. Good to see an essay linking to some real experimental nymbers, good luck.
Thanks Phil for the inspiration
Yuri
Yes, 20 vertices in the dodecahedron, a proposed model for the fluctuations of the cosmic microwave background (J. P. Luminet). I like Week's paper because it explains Klein's model of the platonic solids from the Riemann sphere
http://arxiv.org/abs/math/0502566
The 10 vertices of half a dodecahedron corresponds to your number 18=180/10 and you have it at the end of my essay as a model of the pentagram (or its complement: the Petersen graph) on the real projective plane.
But be careful with the number-theoretical coincidences unless they follow from a solid physical model.
Michel
Dear Yuri Danoyan,
Thanks for your nice essay, well done
I enjoy reading it and rate it accordingly
If it from bit, what does it mean ?
very good question!
so my answer is: it is the Lagrangian~ which is everything physic is about
my essay may interest you
Bit: from Breaking symmetry of it
Hope you enjoy it
Regards,
Xiong
Copied from my essay blog:
It could be due to some aspect of the eigenvalues for gluons in a supergroup. The icosian has quaternions (roots) that have magnitude given by φ. The icosian is in a sense half of the roots space of the E8 group. The masses of hadrons is determined by the quark masses, which is induced by the Higgs field, and by the confinement properties of the QCD gauge field, called gluons. The differences in these fields in the Y-B plane is given by certain roots, and those roots in some cases have the magnitude of the φ = (1 sqrt{5})/2
That is about the best I can conjecture at this point. There might in some way be some semblance of reason for this.
LC
Hi Yuri,
I gave you good grade for all these mystical formulas. I hope you find some physics in them in the future. So what do you think of my formulas
alpha/FSC =.007297352568, charge ^2=3, 27=3^3, m_e, m_p are electron and proton mass
M_p/m_e= (27/2)*(1/(alpha) -1) -1/3 = 1836.152654
adel
Dear Yuri,
After reading your essay I agree 18 is a very powerful number. How did you get this information. Very brilliant. I will rate you high.
I have two requests to make of you. Can you tell me whether Planck length have relationship with 18? Also take a look at my essay and let me know if 18 can be useful to improve it.
Many thanks,
Akinbo
Dear Akindo
My attitude to Planck length very negative
See my article
http://vixra.org/abs/1301.0191
Planck scale is illusion
Dear Sir,
This is with reference to your query to Dr.Weinberg.
Both space and time are emergent properties born out of the perception of sequence. While space is the interval between the ordered sequences of objects that also is the background structure, time is the interval between the ordered sequences of events, i.e., changes in structures by energy.
Dimension of objects is the perception that differentiates the "internal structural space" from the "external relational space". Since such perception is mediated by electromagnetic interaction, where an electric field and a magnetic field move perpendicular to each other in a direction perpendicular to both, we have three mutually perpendicular directions. Dimension is used to determine the state of objects: if fixed, then solid, if fluid, then liquid and if loosely held, then gas, if not related to each other, then plasma radiation. Since time does not fit this description, it is not a dimension.
Number is a property of substances by which we differentiate between similars: if there are no similars, it is one otherwise many. Many can be 2,3,...n depending upon the sequence of individual perceptions. Infinity is like one: without similars. But whereas the dimensions of one are fully perceptible, i.e., discrete, the dimensions of infinity are not fully perceptible: analog and not the same as any discrete number. Since mathematics is accumulation and reduction of similars and partly similars, it is limited to discrete numbers and not analog infinities. Yet, like two different quantities can coexist, two infinities can coexist. Hence space-time coexist and being infinite, coexist with everything else. Thus, everything happens in space-time and it cannot loose its sense. We have written this to weinberg@physics.utexas.edu.
Regards,
mbasudeba@gmail.com
Dear Sir,
We forgot to add: division of a number by zero is not infinity, but leaves the number unchanged. We have written about it in many forums without contradiction. In case you want the proof, you can write to us.
Regards,
basudeba
Dear Sir,
Your essay brings out certain interesting facts, some of which may not be pure coincidence. 9 x 2 or 6 x 3 could be the reason, which needs to be investigated further.
The views of Wheeler have to be considered carefully in the light of the Copenhagen Interpretation, which does not enjoy its earlier status. Information must be about something. Hence that something and not information is more fundamental.
There is much confusion about what constitutes mass. Some wrongly claim that Higgs boson provides mass to the universe. If mass is provided by the Higgs boson as well as via strong interaction, then either the link between these two processes or the difference between the two types of masses has to be considered.
In any equation, the left hand side represents freewill, as we are free to choose or change the parameters. The right hand side represents determinism, because once we choose the parameters, the reaction is deterministic. The equality sign represents the special conditions (like temperature threshold in transition states of chemical reactions) necessary for the reaction to take place. Thus, both sides of the equation are not always interchangeable. In the case of mass-energy equation, since energy always moves or inflates mass and vice versa, the ratio is fixed (c^2 does not represent the dynamical velocity, but a fixed quantity). But this does not make mass and energy interchangeable. If we convert a gram of carbon or LPG to energy, it will be easily proved to violate the equation. Thus, the standard pattern of calculating mass by dividing the energy by c^2 is not correct.
We have a different theory according to which, the accepted value of the charge of the quarks contain an error element of 3%. In stead of -1/3 and +2/3, they should be -4/11 and +7/11 in units of electron charge of -1. This makes the charge of protons +10/11 and that of neutrons -1/11. From this we have theoretically derived the value of the fine structure constant alpha as 7/960 (~1/137) and 7/900 (~1/128 at 80GeV). There is a relationship between matter and energy. Similarly, there must be some relationship between mass and charge. In some experiments, the charge-to-mass ratio is the only quantity that can be measured directly. The 2006 CODATA recommended value is e/me= 1.758820150(44)テ--10^11 C/Kg. CODATA refers to this as the electron charge-to-mass quotient. Applying the formula Mpr/Mel≈1836.15, you can calculate the charge-to-mass quotient of protons and compare with the known values.
We will soon vote for you,
basudeba
Hi Yuri,
I have read the paper you mentioned in my blog. It is interesting but it would be nice if you could explain a bit more how you got to those conclusions and numbers. We definetely have a few findings in common. Have you looked at my theory ?
Regarding your essay, I am sure that the 18 degrees is not a coincidence and the reason is because it is linked to the golden ratio. In a part of my theory, I speculate that the Planck length has got something to do with the golden ratio. In fact, I believe that it is just a scaled down version of the golden ratio, in the same way that the proton's diameter is a scaled up version of the Planck length and the proton's mass is a scaled down version of the Planck mass. Take a quick look at my formulae and you will understand what I mean.
Good luck with the contest.
Cheers,
Patrick
Yuri,
"The most important,in our opinion, is the proton - to - electron mass ratio, the
rest mass of the proton divided by that of the electron (Mpr/Mel≈1836.15)."
Quite interesting theory. What do you see as the connection between the Higgs Boson and the mass it gives other particles in this "18" concept?
Jim
James
To be honest.I don't now
My by accidental...
Yuri
I noted today in arXiv
http://arxiv.org/abs/1307.5308
Mixing Patterns from the Groups Sigma (n phi)
We survey the mixing patterns which can be derived from the discrete groups Sigma (36 x 3), Sigma (72 x 3), Sigma (216 x 3) and Sigma (360 x 3), if these are broken to abelian subgroups Ge and Gnu in the charged lepton and neutrino sector, respectively. Since only Sigma (360 x 3) possesses Klein subgroups, only this group allows neutrinos to be Majorana particles. We find only a few patterns that agree well with the experimental data on lepton mixing and predict the reactor mixing angle theta_{13} to be 0.1
Looks interesting Yuri,
I'm enjoying the comments above, and have downloaded the Hagedorn paper. I'll be back after reading your essay.
Have Fun,
Jonathan
B.T.W.
Only rectangle where perimeter is equal to square by number
P=2x(3+6)=18 S=3x6=18
P=S=18 1D=2D
