## Friday, April 12, 2019

### #Q+ = #POTUS45 Qmap.pub embed

#### QMAP: Qanon Drops & POTUS Tweets

Be a part of the Great Awakening. Get real-time Qanon drops and POTUS tweets. We are the news now!

The Surfer, OM-IV

## Wednesday, February 6, 2019

### Oracle Basic Code

101 count = 0
105 for i = 0 to 20
106 print
107 next i
110 Dim x2(7),sign(7), dx(7)
120 Rem Init some vars
125 aminerr=1000
130 rem res = 8.5e-17
132 res = 1e-4
200 xpi=3.14159265358979323846
250 rem 8 coefs here
255 Rem elementary charge (e)-0
260 x2(0)=1.60217662e-19
265 Rem Planck's constant (h)-1
300 x2(1)=6.62607004e-34
350 rem eletron mass (Me)-2
400 x2(2)=9.109383560899034e-31
500 x2(3)=8.41235640479985e-16
550 Rem Rydberg Constant (R_H or R_{\infty})-4
600 x2(4)=10973731.5685083
610 Rem Permittivity of free space (e0)-5
620 x2(5)=8.854187817e-12
701 Rem Speed of Light (c)-6
702 x2(6)=299792458.0
703 Rem Proton mass (Mp)-7
704 x2(7)=1.672621898209999e-27
710 For i = 0 to 6
720 sign(i)=0
730 dx(i) = 0.01*res*(x2(i))
740 next i
750 Rem define bit to be twiddled here
755 sign(0)=1
760 sign(1)=1
770 sign(2)=1
780 sign(3)=1
790 sign(4)=1
795 sign(5)=1
797 sign(6)=1
1000 rem starting error
1010 xerr1=x2(2)*x2(0)^4/(8*x2(6)*x2(5)^2*x2(1)^3*x2(4))
1015 yerr2=-xpi*x2(3)*x2(6)*x2(2)/(2*x2(1))
1017 err = xerr1 + yerr2 - 1.0
1020 digits=int(-log(abs(yerr+0.00001))/log(10)+0.5)
1030 Print "Starting err is: ";err
1032 Print "Starting xerr1 is: ";xerr1
1034 Print "Starting yerr2 is: ";yerr2
1040 print "Digits resolution ";digits
1050 print "aminerr error is: ";aminerr
1060 for i = 0 to 6
1061 print "i= ";i, x2(i)
1062 next i
1100 print "pi= ";xpi
1111 rem end
2000 Rem Main Loop
2010 For i = 0 to 6
2020 x2(i)=x2(i)+sign(i)*dx(i)
2030 xerr1=x2(2)*x2(0)^4/(8*x2(6)*x2(5)^2*x2(1)^3*x2(4))
2032 yerr2=-xpi*x2(3)*x2(6)*x2(2)/(2*x2(1))-1.0
2034 err=abs(xerr1+yerr2)
2035 if err>aminerr then sign(i)=-1*sign(i)
2037 if err<aminerr then aminerr = err
2040 next i
2050 if err < 1.5*res then goto 5000
2055 print "Working ";err
2058 count = count+1
2060 goto 2000
5000 Rem
5001 xresstop=2e-15
5002 if res > xresstop then res = res/10.0
5010 For i = 0 to 6
5030 dx(i) = 0.01*res*(x2(i))
5040 next i
5100 if res > xresstop then goto 2000
5106 Print "Done."
5107 print "Coef "
5109 for i = 0 to 7
5110 print x2(i);" "
5120 next i
6000 rem Final error
6010 xerr1=(x2(2)*x2(0)^4)/(8*x2(6)*x2(5)^2*x2(1)^3*x2(4))
6012 yerr2=-xpi*x2(3)*x2(6)*x2(2)/(2*x2(1)) - 1.0
6014 err=abs(xerr1+yerr2)
6020 digits=int(-log(abs(err+1e-16))/log(10)+0.5)
6030 Print "Starting err is: ";err
6040 print "Digits resolution ";digits
6050 print "Final error is: ";aminerr
6060 print "Iterations= ";count
6070 print xpi;" <-ideal"
6080 print xpi+err;" <-calc'd
6085 print "Calc'd proton mass= ";2*x2(1)/(xpi*x2(3)*x2(6))
6087 print "Input proton mass= ";x2(7)
6090 print "Proton/electron mass ratio=";x2(7)/x2(2)
6100 end

## Sunday, November 11, 2018

### How to Solve The Proton Radius Puzzle (in 3 easy steps)

If you look at precisely how they solved the second order differential Schrรถdinger equation for the hydrogen atom (the only one with an analytical solution), and see how they derived the equation that precisely links the QUANTUM energy steps to frequency/energy (the photon frequency/energy for when the electron jumps shells; Rydberg equation - THE FULL ONE), AND solve it precisely without making their reduced mass approximation, you get the solution to the proton radius puzzle and much more. Requires iteration on a computer to solve AND it is precise.

The Surfer, OM-IV

More soon.

The Surfer

## Thursday, October 11, 2018

### Cornered - Proton Radius Puzzle Solved - Mainstream Still Bepuzzled and Befuddled

The Surfer, OM-IV

### 2018: The Proton Radius Puzzle - Why We All Should Care

#### [1809.09635] The Proton Radius Puzzle- Why We All Should Care

Abstract: The status of the proton radius puzzle (as of the date of the Confer- ence) is reviewed. The most likely potential theoretical and experimental explanations are discussed. Either the electronic hydrogen experiments were not sufficiently accurate to measure the proton radius, the two- photon exchange effect was not properly accounted for, or there is some kind of new physics.

#### [1809.06373] Proton charge radius extraction from electron scattering data using dispersively improved chiral effective field theory

Abstract: We extract the proton charge radius from the elastic form factor data using a theoretical framework combining chiral effective field theory and dispersion analysis. Complex analyticity in the momentum transfer correlates the behavior of the spacelike form factor in different $Q^2$ regions and permits the use of data up to $Q^2 \sim$ 0.5 GeV$^2$ in constraining the radius.

The work done by the 4th Order Polynomial paper solves all of this and it is a refinement of Haramein’s work:

Full_Wave_Equation_for_a_Single_Hydrogen_Atom_and_Solution_to_Masses_and_Constants

a-4-th-order-7-dimensional-polynomial-wh-DRAFT-FractalU-3-11

other links can be found in previous blog posts...

The Surfer, OM-IV

## Saturday, October 6, 2018

### The Storm vs. Smear and Merchandize

#### The wrap-up smear?

Is she talking about what the Democrats are doing to Trump concerning Russia?

## Saturday, August 25, 2018

### #TheGreatAwakening

Connnecting some dots from r/greatawakening

## Sunday, July 29, 2018

### Pythia - Delphic Oracle - #Qanon #TOPPCG2

The Pythia (/หpษชฮธiษ/,[1] Ancient Greekฮ แฟกฮธฮฏแพฑ [pyหหtสฐi.aห]) was the name of the high priestess of the Temple of Apollo at Delphi who also served as the oracle, commonly known as the Oracle of Delphi.

Perhaps Q of #Qanon is a modern day Oracle!:

#### Pythia - Wikipedia

The Pythia was established at the latest in the 8th century BC, and was widely credited for her prophecies inspired by being filled by the spirit of the god (or enthusiasmos), in this case Apollo. The Pythian priestess emerged pre-eminent by the end of 7th century BC and would continue to be consulted until the 4th century AD.

## Monday, July 23, 2018

#### [1801.08816] New measurement of the $1S-3S$ transition frequency of hydrogen: contribution to the proton charge radius puzzle

Abstract: We present a new measurement of the $1S-3S$ two-photon transition frequency of hydrogen, realized with a continuous-wave excitation laser at 205 nm on a room-temperature atomic beam, with a relative uncertainty of $9\times10^{-13}$. The proton charge radius deduced from this measurement, $r_\text{p}=0.877(13)$ fm, is in very good agreement with the current CODATA-recommended value.