ROOT 2 DERIVATIVES FOR PARTICLE MASSES

'Field' box offices, are instructions for interfacing particle masses with other particle masses

ROOT 2 DERIVATIVES Mass of a given particle calculates the mass of a second particle via (root of root 2) ratio amplitude magnifications Masses of several particles, also, are linked in sequences through two and three multiples of (root of root 2) derivatives

The follow pick list are each of page totals limited to allow display in a browser without stressing the browser's load time

BOX OFFICES TOPICS (FIELDS)

LINK TOPICS 1 PAGES

        - Key terms
        - Kaon Box Office
        - Muon Box Office
        - Sigma Box Office
        - Proton Box Office
        - Electron Box Office

LINK TOPICS 2 PAGES

        - Ion Tower Box Office
        - Boson Box Office
        - Psi Box Office

LINK TOPICS 3 PAGES

        - Upsilon Box Office
        - Zooballs
        - Root 2 giggies



 
 

 SELECTED SAMPLE PAGES FROM THE   particles   pick list pages


LINK SAMPLES 1 PAGES
        - Z rays
        - Ion tower
        - The spine

LINK SAMPLES 2 PAGES
        - Relativistic rotations
        - Spectrums in coherent wavelengths
        - Moonglows

 
 

 DETAILS LINKS


    Z RAYS - beginner's details

    details

    Particle 2  [ spine - Z-rayz
    set3 pset1.htm [P-1  to P-17]  Z rays - beginner's details
    set4 pset2.htm [P-18 to P-34]  twin Z rays - introduction to motor
    set5 qset1.htm [Q-1  to Q-19]  the spine     rotation in the spine
                                   and ion   - cross coupling rules tower

ION TOWER - perfect masses

    details

    Particle 3  [ ion tower - formal version
    set6 hset1.htm [H-1  to H-21]  to chart 4 - sequences toward exact
    set7 hset2.htm [H-22 to H-39]  to chart 8   derivation of certain key
    set8 jset1.htm [J-1  to J-19]  chart 9      particle masses concluding

    Particle 9  [ the ion tower from planet orbits and zooballs
    set16 dset1.htm [D-1  to D-24] - introducing the ion tower

    Particle 10  [ possible resonance transfers up and down the ion tower
    set17 eset1.htm [E-1  to E-19]  - the ion tower - silent sound analogy

THE SPINE

    details

    Particle 14  [ relativistic rotations - beams - in the spine
    set22 lset1.htm [L-1  to L-9]  - relativistic rotations - rest state
                                   - transformations - how beams originate
    set23 mset1.htm [M-1  to M-20] - transformations - details
    set24 nset1.htm [N-1  to N-4]  - spine - fsc power ratio schematic
    set25 oset1.htm [O-1  to O-14] - spine - beams detailed

LINK SAMPLES 2 PAGES

RELATIVISTIC ROTATIONS

    details

    Particle 14  [ relativistic rotations - beams - in the spine
    set22 lset1.htm [L-1  to L-9]  - relativistic rotations - rest state
                                   - transformations - how beams originate
SPECTRUMS

    details

    Photon to boson in one equation. Particle masses calculated as
    exactitudes in simple first principle strings using only add
    subtract times and divide, and reciprocal ratios

    Set 1 Pages [V1  to V23] (23 pages)
    Set 2 Pages [V23 to V43] (20 pages)

MOONGLOWS

    details

    Particle 4  [ moonglows - planet particles - codex
    set9  rset1.htm [R-1  to R-11] - overview - intro moonglow wavestates
    set10 rset2.htm [R-12 to R-22] - interphasing wave harmonic

    Particle 7  [ bulletin boards  - high mass exotics
    set13 sset1.htm [S-1  to S-15] - split frequency resonance pairs
    set14 sset1.htm [S-16 to S-29] - bulletin boards continued

    Particle 8  [ jupiter - includes kaon lambda sigmas xions
    set15 cset1.htm [C-1  to C-4]  - reconstructing particle masses
                                     from a planet's wavelength

    Particle 9  [ the ion tower from planet orbits and zooballs
    set16 dset1.htm [D-1  to D-24] - introducing the ion tower




 
 
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particle masses by Fine Structure Constant inflation ratios - particle
compton wavelengths mirrored in certain solar orbits



 
 
 SWITCH OVER TO MATH PHYSICS 


Plank's length to photon wavelengths, and pion wavelength to saturn
orbit, via (10 to power 27) wave/mass/energy continuum ratio



IMAGE 1 - GEOMETRY IMAGES OF ROOT 2 DERIVATIVES



IMAGE 2









In above Image 1, when the radius of the largest circle is said to be
the compton wavelength of one muon particle, the smallest radius is the
compton wavelength of two muons of 105.6583692 mev each (muons are said
to be always created in pairs).

Root two derivatives for muons are, for two muon masses:
(2 x 105.6583692 Mev) = 211.31673840 mev, then:




   Divided by ratio (1.189207115 = (root of root 2)) = 177.695487804 mev.
   This is term [4] in The Ion Tower page [A-5] linked here

   Divided again by ratio 1.189207115 = 149.423498701 mev. This is two muon
   masses divided by (root 2 = 1.41421356237).

   Divided again by ratio 1.189207115 = 125.649684412 mev. This is two muon
   masses divided by (3 x 1.189207115 = 1.68179283048 ratio).

   Divided again by (4 x 1.189207115 = 2) = 105.6583692 mev (one muon mass).


Ascending:

(Muon 105.6583692 mev) x 1.18920711500 = 125.649684412 mev
(Muon 105.6583692 mev) x 1.41421356237 = 149.423498700 mev
(Muon 105.6583692 mev) x 1.68179283049 = 177.695487804 mev
(Muon 105.6583692 mev) x 2             = 211.316738400 mev two muon masses.


Particle derivatives:

   Proton + (2 x 125.649684412 = 251.299368824) = 1189.57139782 mevs
                                 this is stable Sigma+ mass range

   Proton + (3 x 125.649684412 = 376.949053236) = 1315.22108223 mevs
                                 this is stable Xion o mass range

Sigmas and Xions are featured further down in topics 1 pages.


Term 149.423498701 mev is not profiled herein. Multiples of unit range
147.5 mev (arbitrary) run uphill through a mass sequence of (3/2 spin)
unstable particles:

   (2 x 147.5) + Proton = 1233.272 mev alludes to 3/2+ delta
   (3 x 147.5) + Proton = 1380.772 mev alludes to 3/2+ sigma
   (4 x 147.5) + Proton = 1528.272 mev alludes to 3/2+ xion
   (6 x 147.5) + Proton = 1823.272 mev alludes to 3/2- xion

No one said root 2 derivatives are idiot simple.

IMAGE CREDITS

Root 2 derivatives images:

(Root of Root 2) geometry - two images, and astrophysical clocktick at left - credit Nathan Ddumba (Uganda)

Photo credit - ducks: Wayne Cuddington, Ottawa. Wild baby female mallard ducks being hand fed 12 grain cereal bread at Westboro Beach near downtown Ottawa.

These little ducks stayed well clear of some people, mobbed a tiny selection of nice feeling friends. Dozens of ducks of small, medium, and adult sizes mobbed me everyday, at times by the dozens, plus seagulls. One afternoon a (smallest brood) baby duck beat off two adult seaguls, then raced with the secured large bread piece to the water so fast it was almost a blurr. Who would have thought a baby duck could run so fast, and stand off two adult seagulls.

This photo above captures only a few of the mob that hit this photographed feeding session, when even some mother ducks were walking upon their friend, a moi.

The mob would instantly vanish hurrying to shore line waters of the Ottawa River the instant a dog of any kind appeared approaching the beach. Don't forget, at a beach, dogs love to chase anything that moves. The mighty, spectacular, majestic Canadian geese were roosting by the hundreds a half kilometer around the bend in the shoreline further east toward downtown Ottawa, and took care of many baby ducks and seagulls also roosting amongst the baby geese. The geese's annual daycare is quite a sight.

Canadian geese too like nice people and come up to get stroked under the chin, and warily move away from anyone with bad vibes.

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