|
"La materia è costituita di particelle cariche elettricamente, le quali, in base alla teoria di Maxwell, non possono essere immaginate come campi elettromagnetici senza singolarità. Per rimanere in accordo con i fatti, è necessario introdurre dei termini energetici, non contenuti nella teoria di Maxwell, tali che ciascuna particella elementare possa restare unita nonostante la mutua repulsione fra i suoi elementi carichi di elettricità di ugual segno. Per tener conto di questo fatto, Poincaré ha supposto che all'interno di tali particelle esista una pressione negativa che eq uilibra la repulsione elettrostatica. Non si può tuttavia essere sicuri che questa pressione sia nulla fuori della particella, e perciò aggiungeremo, nella nostra presentazione fenomenologica, un termine di pressione. Esso non dovrà però essere confuso con una pressione idrodinamica atta a servire soltanto alla rappresentazione energetica delle relazioni dinamiche interne della materia. In questo senso scriveremo Tμν=gμα gνβ σ dsα dsβ – gμν p." (A. Einstein Il significato della Relatività 1950 Boringhieri TO)
Nozioni elementari sulla resistenza dei materiali
Allorché sotto l'azione delle forze esterne si producono simultaneamente in un solido deformazioni di diversa specie, si dice che il solido lavora a resistenza composta; la trattazione dei casi di resistenza composta si basa sul principio della sovrapposizione degli effetti, che ha luogo finché trattasi di deformazioni elastiche, e quindi nei limiti delle deformazioni ammissibili pei materiali da costruzioni. Secondo tale principio:
"Le deformazioni, prodotte in un corpo da più forze esterne agenti simultaneamente, si sovrappongono cogli stessi valori che esse avrebbero, se venissero prodotte separatamente dalle stesse forze, supposte applicate isolatamente una dopo l'altra." (Ing. Levi, Costruzioni... MI 1936 HOEPLI)
Conclusione e premessa (Giovanni Imbalzano)
D'accordo col principio d'ingegneria, forze
che si oppongono (su lati opposti) lavorano in modo anti-simmetrico,
sommandosi anzichè sottrarsi; pertanto, il tensore "classico" di Einstein
conterrà
gμν asimmetriche,
oltre che
gμν=+gνμ:
gμν=gμν+gμν
con
gνμ=-gμν
da interpretarsi non proprio come l'originale unificazione di Einstein (specifica
per campi gravitazionali ed elettro-magnetici) ma per più in generali
onde di materia, anche sismiche.
Da ulteriori generalizzazioni
Per specificare ulteriormente l'interazione elettro-gravitazionale, Kaluza, Klein ed altri, fino a Pauli, Dirac, introducono una teoria pentadimensionale, o l'equivalente proiettiva, ma è necessario aggiungere la trasformata di Fourier per il nuovo tensore spazio-temporale (W. Pauli. Teoria della Relatività TO 1958 Boringhieri) per cui μ, ν <= 5: gμν → γμν = Σ-∞+∞ γμν(n)(xi)·exp[2πinx5/uiτi] dove i < 5, δx5 ≈ uiδt per xj≠i ≈ cost. In quest'ordine d'idee, introduco le onde sismiche quali correzioni moltiplicative con ampiezza a fattore di γμν(n) → γμν(n)·exp(2πniδx5/uiτi) ≈ γμν(n)·cos(2πnδt/c). Per interazioni ≈ elastiche (e. g. assiali minime, verso superficie aperta o
no) è n = 1, 2, ad eguali ampiezze γμν(1) = γμν(2) equivalente ad una periodicità (≈ τ/6) tra i valori estremi e di baricentro, con forze poligonali simmetriche che soddisfano al principio d'azione e reazione.
Compatibilmente con quanto sopra, l'abbassamento delle faglie (Graben) determina un volume aperto verso l'esterno, con danni più rilevanti, mentre le parti rimanenti chiuse laterali (Horst) o inferiori (Normal) comportano maggiori frequenze d'onda (periodo minore). Cambiamento di fase adiabatico: - 22'11 h04:32r, Campania Gulf (SA-AV-NA 40.39N 14.76E) m3.2 d9.0:
local II Planetary Peak (δ≈5/(4.5m+10)≈3%) speciale esempio di spinte radiali in superficie con prevalenza della semi-onda, per cui cos(2α)+cos(α)→cos(2α)-cos(α) SEE Campania2→ Campania2-.
Per sciami "circolari" secondari (meno essenziali) posono esistere altri valori n>2. G. I.
Follow me on "https://independent.academia.edu/GiovanniImbalzano" & "https://independent.academia.edu/GImbalzano"
Bibliografia descrittiva
Supernove, congiunzioni planetarie e sismicità terrestre (sismologia quantistica)
Giovanni Imbalzano © 2012 Moncalieri
Italy
Supernovas, planetary conjunctions and
Earth seismicity
(quantic seismology)
Marea: "...il Sole interviene (solo) a modificare l'ampiezza della marea (acquea) ...la componente di gran lunga più importante della m. atmosferica è costituita da una oscillazione solare semidiurna... La teoria delle m. atmosferiche deve spiegare il fatto che la m. lunare è da 20 a 30 volte minore della m. solare, anche se la forza gravitazionale di m. esercitata dalla Luna è più che doppia di quella esercitata dal Sole, e che essa è a sua volta maggiore di quanto ci si attenderebbe da un calcolo basato sulle sole forze gravitazionali" (L.U.I. Treccani, 1974 Roma).
Premise: commonly we think that far-off asters, also the great planets as Jupiter or Saturn, they are able to influence gravity only a tenth of what the Moon can do, accountable for liquid tides and the earthly tides, as the earthquakes: the same action of the Sun penetrate below the surface earthly seems to be half of that lunar, and the tides contrast to the action of the Sun and of the Moon, reducing of a third the measurable value with a "pendulum of twist". However, if suddenly we miss the gravitational action of the Sun or of Jupiter, is evident that the effect on the Earth would be many more disruptive in comparison with the absentia of the Moon! Such we may certainly resolve such contradictions introducing the ratios of energy (potential) and not of force and acceleration. In such a case, quite the reverse of what over, the Jupiter or Saturn energetic actions are superior ten times in comparison with the Moon. It is well true that always does not have been possible that we have noticed seismic phenomenon in concomitance of strong planetary perturbations, but this only because the relative action is verified in a well determinate directions and in more tender geological places. In other words, we may consider the planetary perturbations as possible causes (necessaries but not sufficient) to sudden seismic effects, as the fuse of an explosive. More exactly, in a manner similar to the damping of a pendulum, such perturbations furnish the energy that is stored, while the possible movements of earthly clods force the oscillating system, increasing her power. G. I.
Theory
Seismic perturbation, Bode law and WIMP interactions (gravitational quantization)
Giovanni Imbalzano © 2013 Moncalieri
Italy
Perturbazioni sismiche, legge di Bode e interazioni WIMP (quantizzazione gravitazionale)
~
Follow me on "https://independent.academia.edu/GiovanniImbalzano" & "https://independent.academia.edu/GImbalzano"
~ ~
~ ~
:=
All
Phase:
'12-'15
=:
:CLICk!=>
1ª Phase
~
↑CLICk↑
20/5/12
~
:= 1/7/16 :
14ª Phase
~
:= 1/7/18: 22ª Phase :=: 1/10/18: 23ª Phase :=: 1/1/19: 24ª Phase :=: 1/4/19: 25ª Phase :=: 1/7/19: 26ª Phase :=: 1/10/19: 26ª Phase :=:
~ ~ ~
:= 01/04/20: 28ª Phase =::= 01/07/20: 29ª Phase: =::= 01/10/20: 30ª Phase =::= 01/01/21: 31ª Phase =::= 01/04/21: 32ª Phase =::= 01/07/21: 33ª Phase =::= 01/10/21: 34ª Phase =:
:= 01/01/22: 35ª Phase =: := 01/04/22: 36ª Phase =: := 01/07/22: 37ª Phase =: := 01/10/22: 38ª Phase =:
:= 01/01/23 39ª Phase =: := 01/04/23 40ª Phase =: := 01/07/23 41ª Phase =: := 01/10/23 42ª Phase =:
:= 01/01/24 43ª Phase =: := 01/04/24 43ª Phase =: := 01/07/24 43ª Phase =:
~
:= !Apocalisse! =:
~
History
11 440 BC: SN (Super-Nova) and last but two geomagnetic inversion, with an intense seismic and volcanic activity. Epoch of the Nefilim (~10 500 BC, from Sumerians texts):
"They are on the Eatrh the Giants in those days " (Genesis 6.4)
6 295 BC: SN, and penultimate geomagnetic inversion with radioactive
precipitation (U). Neolithic (4236 BC: observation of the
Sirius star; wagons and circular constructions)
3 113 BC: geomagnetic inversion the latest. Gentlemen of the Sky in
Babel
(~3000 BC): "We get off so we confuse their tongue" (Genesis
11.7)
1 800 BC: variation of C14. God of Abraham: "He raised the eyes
and he saw that three men's were with of he." (Genesis 18.2)
1 147 BC: SN..? Intense seism and radioactive precipitation (U)
600 BC: variation of C14
134 BC SN type I in Scorpio, of Ipparco and Chinese
5 BC SN Chinese, with alignment of planets (7-6 BC) and variation
of
C14: Magus’s to Bethlehem (birth of Christ)
Magus’s: "We have seen a star great, lamping among all
other,
and become dark it insomuch that they it disappeared!" Proto-Evangel of James XXI, 2 (~ 150 AC) 7-4 BC... 1987 AC.
The Magus’s or "Three Kings" had departed by the Orient two years before (Matthew 2.16) in occasion of the planetary alignment of the 7/6 BC, interpreted by Chaldeans as prediction of too great an event that must be verified in Bethlehem; they observed only then (Mt 2.9) the "fixed star" of maximum shine, that same observed by Chinese’s.
=0=
33 AC: Moon /
Sun conjunction, then opposition (total / partial eclipse),
whirlwinds in Cappadocia, 2 Earthquakes to Jerusalem (death
and
reappearance of Christ)
79 AC: eruption of the Vesuvius (and alignment of planets)
185 Chinese SN in Centaur (7/12/185)
386-393 & 436 (Centaur, Sagittarius, Scorpio) Novae..?
600: weak variation of C14
716-827 SN (?) in Scorpio, Novae..? Earthquakes in
Iran (856-893)
1006 SN type I in Wolf
15/5/1054 Armenia SN -type I (binary star) and/or
4/7/1054
-type II Chinese Z (single-hit star) in Bull, with variations of C14
1181-1203 Chinese SN in Cassiopeia - Scorpio?
1224-1240 SN in Scorpio: weak variation of C14, devastate in
Anatolia (1268) and China (1290)
1408 Arabic SN in Swan: variation of C14; 1572 Brahe (II) in
Cassiopeia: conjunction (Mar, Jup, Sat) and long
Earthquakes (China 1556, Emily 1575)
1604 Kepler SN (I) in Ofiuco (**) with Mars and Jup in
conjunction;
1670 SN (II) in Cassiopeia
1700 26 gen.: Alaska e California (~ 52N 178E) m9.0; 1737 16 Ott.: Kamchatka, Russia (~ 53N 161E) m9.3
1742 1 Sep.:
triple conjunction (Mer, Jup, Sat) and partial occultation's:
1743 (Mer, Sat); 1746 (Mer, Ven); 1748 (Ven, Mar)
1750: strong Earthquakes (India, Portugal, Italia) with triple
conjunction of the day 19/4/1755 (Ven, Mar, Ura)
1755 31 Oct.: very strong Earthquake in Portugal (70-100,000 victims) m9: Sun ~90° on Sat / Jup, Ven ~90° on Sat / Moo & Mer / Ven (<=click!)
16 Dec.: Valdivia, Chile m8.5; 1761 5 Jun. & 1769 3 Jun.: transits of Ven*Sun
1833 25 Nov.: Sumatra, Indonesia m8.7: Jup*Moo/Ven ┴ Mar*Sun/Sat (<=click!); 1885 20 Aug.: Extra SN; 1904 SN (?) in Sagittarius
1906 22 Feb.:
triplet (Mer, Ven, Sat) and Earthquake of Valparaiso (16 Aug.
m8.3) with max magnitude registered for now (Richter scale)
1908 Jupiter / Saturn opposition (click)
on the axis Sun / Plu e Ven / Nep (click):
strong Earthquake of Calabria's Reggio and Messina (28/12 m8) with
80,000 victims
1920 16 Dec.: China (Haiyuan ~ 29N 111E) m8.6; 1926'50: other Earthquakes inferior to the precedent;
1942: SN “IC 4182”; 1952 11 Apr. h03.38r: Kamchatka (53N 160E) m9.0: Jup / Sat 90°on Jup / Sun / Mer / Ven and Sat / Nep / Moo (<=click!)
1960 22 May h14.19r: Chile (38.24S 73.05W) m9.5: Mer / Sun (& Ven) ~90° on Jup / Moo (& Ven) and Sat / Mar (& Moo) apparently external
1962 5 Feb: an alignment (conjunction) of Sun and Moon with five planets (Venus, Mercury, Mars, Jupiter, Saturn).
1964 27 Mar. h18.27r: Alaska (Prince William Sound 61N 147.5W) m9.2: Moo / Sun 90°on Mar / Jup and Sat / Ven
1967 6/9:
triplet (Mer, Juno, Ura);
1968, Jan-May: Earthquake of Belice (Sicily) in proximity of
various planetary triplets
1968 21-31/8: triplets (Mer, Ven, Jup) / (Mer, Ven, Ura)
followed from (Mar, Jup, Ura) 31 Nov.
1974/10/26, quartet (Mer, Ven, Mars, Ura): strong seism in mid-Orient (1972'74), in center-America (1972'76), China and Philippine isles (1976)
1976 7/9: triplet (Mer, Ven, Mar), strong Earthquake in Philippines, China and Friuli (Italy 1976)
23/2/1987: “1987A” extra SN, strong Earthquakes (Peru, China, Iran)
2000, 5 May: alignment (conjunction) of Sun, Moo with five planets (Ven, Mer, Mars, Jup, Sat);
9 May complete conjunction, planets at equilibrium!
2000 17 May h10:31, Ven*Jup in partial occultation (41.87"); 2000/2002: seism in Piedmont, Italy
2003 Dec.: Mar / Jup & Jup / Ear ~90° on Sun / Ear & Sat / Sun (<=click!), seisms in Iran (Bam 29N 58E) with 31 thousand deads
2006 15 Nov.: I. Kuril Islands m8.3: 10 Dec. triplet (Mer, Mar, Jup); 2007 12 Dec.: Jakarta, Indonesia m8.5
2007 1 Apr.: Salomon Islands m8.1: 23 Dec. alignment / conjunction (Sun, Mer, Ear, Mar, Jup, Plu) toward the galactic center
2007 -2012: intense seism and planetary alignment in the arc of a year (***)
2010 27 Feb. h01.43r, Chile (Offshore Maule 35S 72.5W) m8.8: Sat & Moo (& Sun) 90° on Sat & Moo / Jup (& Nep & Ven) & Sun, apparently external
2011 11 mar. h15:15r, Japan East (Honshu 38.32N 142.37E) 26 000 victims m9.0; 8 June: new type of Super-Nova outshines the rest.
~
Media of the SN appearance: every 100 years
*) ? =Not documented, extra Extra =Extra-galactic.
**) Sagittarius, Ofiuco, Scorpio, Wolf, Centaur, Cygnus and Cassiopeia:
constellations especially of population I (binary young stars predestined to SN).
***) Date (T-T Declination) Planets
2012/02/10 02:08:49 0.30352° conjunction Venus * Uranus
2012/02/13 opposition / Earth Mars / Neptune
2012/03/13 " Venus / "
2012/03/27 " Mars / Uranus
2012/04/29 " Mars / Venus
2012/05/02 " Mercury / Saturn
2012/05/19 " Venus / Jupiter
2012/05/22 05:32:11 0.38379° conjunction Mercury * Jupiter... then * Venus (click!): continue telluric movements in Emily, & 2012/05/28 on Pollino Mount m4.3
2012/06/01 20:18:52 0.19221° conjunction Mercury * Venus
2012/06/10 opposition / Earth Mars / Jupiter
2012/09/03 " Venus / Uranus
2012/11/27 01:11:50 0.52551° conjunction Venus * Saturn
2013/02/04 21:03:32 0.40627° " Mars * Neptune
2013/03/22 18:18:04 39.10" " Mars * Uranus in partial occultation
2013/03/23 opposition / Earth Mercury / Uranus
2013/03/24 " " / Mars, into two conjunctions (08/02-08/05/2013)
2013/06/27 " " / Jupiter
2013/09/21 " " / Venus
Graphs for m>5 compatible with our MAX of magnitude ←Click↓
SEE "SynTrend.htm"
~!~
~ Alignments (↓click!) ~
2013: 19'09' ☺ 21'09' Sat*Ven/Mar(30°), Jup/Plu┴Sun/Moo; 04'10' ☻ Pakistan 24'09': m7.7 effettivo (Tirreno B S m3.6 19'09') ≈ m7.9 Max planetario
19'10' ☺ 21'10' Jup/Plu & Mar/Nep (60°) Sun*Sat/Moo; 03'11' ☻ Japan 26'10': m7.1 effettivo (Toscana N m3.4 19'10'), m5.7→8.4 (default di Venere laterale) M. p.
23'11' ☺ (click→) Ven*Plu/Jup (45°) Sat*Mer/Sun, Atlantic Ocean S 25'11': m7.0 effettivo, Max planetario ≈ m6.6→7.1 con la Luna decrescente... 02'12' ☻
2014: 01'01' ☻ 06'01' Moo/Sat(45°)Ven/Jup & Mar/Ura┴Sun/Ear, 15'01' ☺ ≈ m6.8 Max planetario...
15'03' ☺ 16'03' Sat/Mer(30°), Jup/Sat(75°) Sun/Ear ≈m7.4±1.4 min-Max planetario... 30'03' ☻≈ m8.8 Max planetario...
14'04' ☺ Sat/Mar/Moo, Ven/Nep ≈35° Mer/Ura ≈90° Jup/Ear (≈78° Sun) Theoric Planetary Magnitude = m6.6±0.1, 29'04' ☻ ≈ m7.6 Max planetario...
28'05' ☻ 08'06' Jup/Plu (60°) Sat*Mar/Ven ≈ m5.8±1.3 Min-Max planetario 12'06' ☺
21'12'14 ☻ 25'12' Jup/Mar (30°) Ear/Plu*Ven*Mer (60°) Sun/Sat ≈m7.8±0.6 Max planetario
05'01'15 ☺2015: - 03'02' ☺... 04'02' Sat/Ura ┴ Jup/Mer ≈ m8.4±0.4
- 18'02' ☻... 01'03' Sat/Ven/Mer ┴ Ear/Nep ≈m8.3±0.8
- 05'03' ☺... - 20'03' ☻...
21'03 Jup/Mer (& Mar/Ura)
- 03'04' ☺...
04'04 Ven/Plu ┴ Ear/Mer ≈ m7.8±0.8; 12'04'
Sat/Ven ┴ Jup/Mer ≈ m7.8±0.8 Max planetario;
14'04 Sat/Mer
- 18'04' ☻... Influenza degli spostamenti dei Pianeti quali perturbazioni sismiche sulla Terra:
sia chiaro ai geologi che la variazione (δφ) nell'orbita degli oggetti in movimento da parte di masse (δm) intorno al Sole (m) soddisfa alla proporzione δφ/φ = δm/m, come viene da Landau - Lifchitz, Théorie du Champ (1963, pag. 435). Per quanto riguarda Giove (δm/m=1/10) che gira intorno al Sole con velocità angolare pari a 1/10 di quella della Terra, e riduciamo anche a 1/10 la sua influenza sulla superficie terrestre (all'equatore, 40,000km); otterremo che in un giorno terrestre le parti fluide, quale il magma in movimento che provoca i terremoti, sotto l'influenza planetaria tendono a spostarsi di circa 400km in un giorno, ossia di 25km in un'ora e mezza… a più di 10 volte la normale velocità del suono. Nota Bene: la Luna ed i Pianeti interni sono accoppiati più direttamente al Sole, ma occorre anche tener conto delle opposizioni che causano sovrapposizioni dirette e risonanze di campo.
~!~!~
- 18'04 Mar/Mer/Moo/Ear; 23'04 Jup/Ven ≈ m7.8±0.8
May 2015: 01'05 Sat/Ear/Mer ≈ m6.8±0.6 - 03'05' ☺... 05'05 Jup/Mer(/Nep) ≈ m6.8±0.6
- 18'05' ☻... 19'05 Sat/Ear/Moo/Mar & Ven/Ura ≈ m6.8±0.6; 29'05 Sat/Moo/Ear/Mer & Ven/Ura ≈ m6.6±0.8; 31'05 Mar/Mer/Ear & Ven/Ura ≈ m6.6±0.8
- 01'06' ☺... - 16'6☻... 19'06 Jup/Sun/Mer ≈ m6.6±0.8; 24'06 Sat/Ven/Sun & Jup/Ven/Ear ≈ m6.6±0.8
Jul 2015: - 1'7☺... 12'07 Mar/Sun/Ven + Sat/Sun/Mer + Sun/Ear/Plu & Mar/Mer/Ear ≈ m6.4±0.8
- 16'7☻... 24'07 Mer/Sun/Ven/Plu ≈ m6.4±0.8; 28'07 Ear/Sun/Mer & Mar/Ear/Plu ≈ m6.1±0.3 - 30'7☺...
Aug 2015: 03'08 Sun/Mer/Jup ≈ m6.1±0.3; 11'08 Jup/Mer/Ven/Ear ≈ m6.1±0.3
- 14'8☻... 15'08 Jup/Mer/Ven/Ear/Nep ≈ m6.1±0.3; 21'08 Jup/Sun/Ear & Mar/Sun/Plu ≈ m6.1±0.3; 25'08 Sun/Ven/Nep & Mar/Sun/Plu ≈ m6.0±0.4 - 29'8☺...
Sep 2015: 06'09 Sun/Mer/Plu & Mar/Ven/Ear ≈ m6.0±0.4; 08'09 Mar/Sun/Mer & Mar/Ven/Ear ≈ m6.0±0.4 - 13'9☻... - 28'9☺...
Oct 2015: 02'10 Jup/Ear/Nep ≈ m6.5±0.5 - 12'10☻... 16'10 Sat/Sun/Ven & Jup/Mar/Ven/Ear/Nep ≈ m6.5±0.5; 20'10 Mer/Sun/Plu & Jup/Ven/Ear≈ m6.5±0.5
- 27'10☺... 29'10 Sun/Mer/Mar & Mar/Ven/Ear + Mer/Ear/Ura ≈ m6.8±0.4
Nov 2015: 01'11 Sun/Mer/Jup & Mar/Ven/Ear m6.8±0.4 - 11'11☻... 25'11 Jup/Mar/Sun/Nep + Sat/Sun/Ear & Ven/Ear/Ura ≈ m7.0±0.2 - 26'11☺...
Dec 2015: 03'12 Jup/Sun/Nep + Sun/Mer/Plu ≈ m7.0±0.2 - 10'12☻... 16'12 Jup/Ven/Sun/Mer/Nep ≈ m7.0±0.2;
18'12 Jup/Sun/Nep + Mar/Ven/Sun/Mer & Ear/Mer/Plu ≈ m7.0±0.2 - 25'12☺... 26'12'12 Jup/Sun/Nep + Mar/Ven/Sun + Sun//Mer/Ura ≈ m7.9±0.4
Jan 2016: 6'1'16 Jup/Sun/Nep + Sat/Sun/Mer & Sat/Ven/Ear ≈ m7.9±0.4 - 9'1☻... 11'1 Jup/Sun/Nep + Ven/Sun/Ura + Ear/Sun/Plu ≈ m7.9±0.4
14'1 Sun/Ear/Ura & Jup/Mar/Ven/Ear/Nep ≈ m7.9±0.4 - 24'1☺... 26'1 Plu / Mer / Ear ≈ m8.6±0.5 29'1 Jup / Mer / Sun ≈ m8.6±0.5
~ Next Date, Oppositions & Planetary magnitudo Max (↑click↓) ~
Oppositions of... Feb 2016: 3'2 Plu / Mer / Ear ≈ m8.6±0.5 - 7'2☻... Mar / Mer / Sun ≈ m8.6±0.5 SEE for next: Alignments2016
Next Planetary MAXs: 22'2☺; simsg229.jpg m8.65; 6'4; ☻simsg407.jpg m9.27; 28'12☻ m7.64
La Luna ☻ sembra posticipare, quella ☺ anticipere i tempi in gg/30g. Provando a re-distribuire le magnitudo(t/T) = Acos(2π(t-tₒ)/30g) con un fattore cos(2π(t-t☻)/30g), il Max sarà per
[cos(2π(t-tₒ)/T)*cos(2π(t-t☻)/30g)]' =0=
sin[(2π(t-tₒ)/T)+2π(t-t☻)/30g)]: (t-tₒ)/T)+(t-t☻)/30g = 0, t(1/T+1/30g) = tₒ/T+t☻/30g,
t = (tₒ30g+t☻T)/(30g+T).
Per tₒ=T: t = T*(30g+t☻)/(30g+T), sicchè t/T =
(30g+t☻)/(30g+T), δt = t[1-(30g+t☻)/(30g+T)] = t(T-t☻)/(30g+T); δt% = (T-t☻)/(T+30g)
> 0 se T segue t☻, oppure < 0 per T < t☻ nell'intervallo dato mod(30g).
CLICk!=> Космическая погода Space weather forecast December 1, 2015... 7-8/12: 5/10Kp, δm≈1.7
... ...
CLICk!=> Swarm Example <=CLICk!
NEWs @esa 28'01'16 MARTIAN Labyrinth...
^CLICk^
block of martian terrain, etched with an intricate pattern of landslides and wind-blown dunes, is a small segment of a vast labyrinth of valleys, fractures and plateaus.
NOTE: as from my theory, the Mars location suffer more than Earth for planetary gravity & WIMP!
* Last Recapitulation *
:..From
11'09 ..:~!~ Sep 2024 ~!~
- 11'09 h12:10r, India/Pakistan W Karor (31.18N 70.63E) m5.4
- 12'09 h02:31r, Papua N. Guinea SW Lorengau (3.27S 146.36E) m6.3:
emi-Concordance
(δ≈-6g/4.49m<½*9%);
h06:35r, Vanuatu ENE Luganville (15.20S 168.01E) m5.8:
near general
Swarm
(δ≈-7g/24.02m<1%); h14:53r, Sicily Eolie (ME-RC-VV 38.64N
15.32E) m3.4:
RC
(δ≈-2g/3m≈2%)
Concordance in
local
emi-Concordance
(δ≈1g/5.99m≈½*1%)
- 13'09 h06:00r, Lucania SW S. Costantino A. (PZ-CS-MT-TA
40.02N 16.28E) m3.3: local
Concordance
(δ≈-17/9.9m<6%)
near
MT
(δ≈-11g/8m<5%);
h09:09r, Sicily WS. Tirreno (TP-PA-AG 38.46N 12.07E) m3.0:
IT Concordance (δ≈13g/3m≈14%); h09:13r, Japan Izu I. (30.95N 141.32E) m5.2
- 14'09 h07:47r, Japan SSE Koshima (29.80N 130.86E) m5.7: near emi-Concordance (δ≈-8g/2.99m<½*18%); h08:19r, Adriatic S Golfo Manfredonia (FG-BT-BA-CB 41.54N 15.92E) m2.4: BT (δ≈-5g/26.18m≈0.6%)
Concordance plus general II Planetary Peak (δ≈-3/(3.01m+36)≈2%) near ConcordIT I Planetary Peak (δ≈-12/(3m-1)≈13%); h19:17r, Liguria Mare (Corsica-IM-SV 42.93N 7.45E) m3.8: general (δ≈2g/2.96m<½*5%)
emi-Concordance
- 15'09 h00:41r, Alaska W Adak (52.14N 179.81W) m5.0: I Swarm (δ≈9g/15.2m<2%); h20:17r, Lombardia SE Temù (BS-TN-BZ-BG-VE 46.17N 10.52E) m2.4: VE (δ≈2g/8.77m<0.8%) Concordance &
LC
(δ≈0g/9.91m=0%)
&
MB
(δ≈-2g/6.1m≈1%);
h21:01r, Indonesia NE Bontang (1.34N 118.46E)
m5.5:
ConcordOF
(δ≈6g/3m≈½*13%)
emi-Concordance plus
Swarm
(δ≈-1g/20.5m<0.2%)
- 16'09 h01:04r, Sicily E Costa (CT-ME-RC-SR 37.72N 15.30E) m3.3: SR
(δ≈2g/3.02m≈2%)
Concordance; h06:16r, Alaska WNW
Adak (52.46N 179.02W) m4.6;
h16:20r, Triveneto/Slovenia (Celje-TS-UD-PN 46.11N 15.09E) m3.1: far TS (δ≈-23g/3.97m≈19%) Concordance; h16:25r, Greece/Romania N Cașoca (45.55N 26.27E) m5.2: Romania new-II (δ≈-5/(8.98m-0)<2%)
Planetary Peak idem Concordance; h18:01r, Mexico/Texas WSW Ackerly (32.40N 102.04W) m4.8: Swarm (δ≈5g/1.5m≈11%)
- 17'09 h16:27r, Atlantic S Mid-Ridge (24.57S 13.56W) m4.9; h16:48r, Lazio E Amatrice (RI-AQ-TE-AP-TR-PE-CH-PG 42.65N 13.38E) m2.4: CH (δ≈2g/3m≈2%) Concordance;
h19:09r, Australia Macquarie I. (54.56S 158.72E) m4.8: II Planetary Peak (δ≈16/(9.02m+11)<6%) ...☺...
- 18'09 h00:07r, N. Zealand Kermadec I. (27.44S 176.74W) m5.7: Swarm (δ≈-5g/1.5m≈11%); h03:34r, Madagascar SSE Tôlanaro (25.73S 47.27E) m5.2; h09:51r, Indonesia ESE Banjar (7.24S 107.57E) m5.0
- 19'09 h04:59r, Greece SSE Kastrí (34.76N 24.13E) m4.4; h11:27r, India SW P. Blair (10.56N 91.68E) m5.5: local emi-Concordance (δ≈1g/5.6m≈½*1%) near generic (δ≈-10g/4.48m<½*15%);
h16:20r, Indonesia ENE Tobelo (2.16N 128.70E) m5.2: Swarm (δ≈-38g/15m≈8%)
- 20'09 h14:24r, Emily NW Finale (MO-MN-FE-RO-BO-RE-VR-PR-PD-VI 44.89N 11.24E) m2.3: RO (δ≈5g/7.8m≈2%) near PD (δ≈-16g/9,1m<6%) & PO (δ≈2g/6m≈1%) Concordance
- 21'09 h03:49r, Sicily WS. Tirreno (TP-PA-AG 38.16N 12.31E) m4.1: emi-Concordance (δ≈-4g/3.01m≈½*4%); h03:52r, Adriatic N/SW Montappone (FM-MC-AP-AN-TE-PG-AQ-TR-PE-PU 43.12N 13.44E) m2.5: local II Planetary Peak (δ≈10/(3.01m+1)<11%) in Concordance (δ≈11/3.01m≈12%) also MC (δ≈20g/5.3m<13%); h05:26r, Alaska WSW Adak (51.22N 178.52W) m5.4: II Swarm (δ≈0g/11m=0%);
h16:56r, Argentina NNW V. Gen. Roca (31.92S 66.80W) m6.0: Concordance (δ≈-12/3.01m≈13%) near Swarm (δ≈-4g/11.5m≈1%); h20:28r, America CW El Salvador SSW 'Libertad (13.19N 89.40W) m5.1: general
Swarm (δ≈-19g/21m≈3%)
- 22'9 h11:26r, Greece N Land (40.24N 24.23E) m4.6: general Concordance (δ≈-12/3m≈13%); h13:33r, Adriatic N Bosnia&Herz. (Zenica-AN-PU-AP 44.48N 17.69E) m4.3: general Concordance (δ≈11/3.01m≈12%) in
AN (δ≈-29g/4.51m≈21%) but this Period change (4.38←4.51); h14:39r, Calabria Marcedusa (CZ-KR-VV-CS 39.03N 16.83E) m2.6
- 23'09 h01:09r, Madagascar Mauritius'Reunion (17.36S 66.50E) m5.4: I Planetary Peak (δ≈-23/(8.98m+0)<9%); h05:34r, Arctic Greenland Sea (73.22N 6.42E) m5.0: Swarm (δ≈-3g/1.5m<7%);
h13:34r, Lombardia E Paspardo (BS-TN-BG-BZ-VI-MI 46.02N 10.46E) m3.1: near BZ emi-Concordance (δ≈3g/3.47m<½*6%) near SO (δ≈-6g/12.02m<2%) Concordance;
h18:49r, Solomon I. ESE Gizo (8.88S 158.09E) m4.5
- 24'09
h04:02r, Indonesia SSW Gorontalo (0.10S 122.89E) m6.0;
h08:01r, Triveneto/Slovenia (Croazia-TS-UD-PN 45.59N
14.35E) m2.7 Mer\Ear\Sat
- 25'09 h00:30r, Mexico WSW P. Madero (14.41N 93.13W) m5.3:
near
Swarm
(δ≈-16g/10m<6%);
h12:52r, Solomon I. SSE Kirakira (11.26S 162.14E) m4.6:
local
Swarm
(δ≈-1g/21.4m<2%);
h13:33r, Atlantic S Mid-Ridge (57.73S 6.91W) m5.3; h21:06r, Sicily E (Malta-RG-SR-AG 35.06N 14.04E) m3.3: RG emi-Concordance (δ≈6g/8.4m<½*5%)
- 26'09 h12:21r, Mexico NW S. Miguel Totolapan (18.19N 100.42W) m5.0; h16:14r, Japan SSE Akkeshi (42.82N 145.04E) m5.5: near Swarm (δ≈4g/1.5m<9%);
h18:09r, Lombardia/Svizzera (Interlaken-VB-VA-CO-AO-BI 46.53N 7.86E) m3.3: ex-CO (δ≈4g/5.24m<3%); h21:49r, America CW Nicaragua/Corinto SW (11.88N 87.65W) m5.1;
h23:45r, Madagascar/Mauritius
Reunion (17.19S 66.55E) m6.3:
Concordance
(δ≈-20/8.98m≈7%)
- 27'09 h03:33r, Greece S/WSW Palaióchora (35.01N 22.74E) m4.0; h10:22r, Calabria S Tirreno (ME-RC-VV-CZ-CS
38.64N 15.58E) m2.7; h13:18r, Solomon I. SW Kirakira (10.95S
161.48E) m5.3:
II
Planetary Peak
(δ≈1/(6.07m+4)≈0.5%); h18:36r, RockM.W/Oregon WSW Pistol R. (41.85N 126.84W) m5.1; h19:28r, Antille/Venezuela NNE Yaguaraparo (10.98N 62.66W) m4.8: I Planetary Peak (δ≈6/(3.03m+0)<7%)
- 28'09 h02:15r, Vanuatu S Isangel (19.99S 169.31E) m5.1; h10:46r, Piemonte SE Bruno (AT-AL-CN-SV-GE-TO-PV-NO-MI-BI 44.78N 8.45E) m2.5: local emi-Concordance (δ≈0g/4.03m=½*0%);
h13:43r,
Greece S/WNW Filiatrá (37.30N 21.28E) m4.7;
h15:02r, Sicily WS. Tirreno (TP-PA-AG 38.20N 12.34E)
m3.2:
general
Swarm
(δ≈1g/39m<0.001%)
- 29'09 h00:51r, Arctic Lomonosov Ridge (80.01N 137.19E) m4.9;
h02:13r, America CE Colombia NW Jordán
(6.79N 73.14W) m4.7:
local
Swarm
(δ≈9g/28m≈1%);
h03:13r, Sicily EN. Costa (ME-RC-VV-CT 38.31N 15.42E) m2.5
- 30'09 h03:30r, Emily W Marano'Panaro (MO-BO-RE-PT-PR-PO-FE-LU-MS-FI 44.46N 10.92E) m3.3: MN (δ≈-8g/20.77m≈1%) & FI (δ≈-13g/6m≈7%) Concordance;
h18:35r, Lazio NW Villa S. Lucia (FR-CE-LT-NA-BN-AQ-CH-PE-AV-FG 41.52N 13.76E) m2.4: FR (δ≈11g/5.94m≈6%) & BN (δ≈10g/4.05m≈8%) Concordance;
h23:03r, Russia E Petropavlovsk-Kamchatsky (53.04N 160.26E) m5.9: general Swarm (δ≈6g/1.5m≈13%) in emi-Concordance (δ≈-2g/2.99m≈½*4%) & local I (δ≈-4/(7.55m-2)<2%) Planetary Peak
~!~ Oct 2024 ~!~
- 01'10 h05:35r, Greece N/Albania Tirane (AB-LE-BR 39.70N 20.31E) m4.1: general I (δ≈-3/(3m+0)≈3%) Planetary Peak in AB emi-Concordance (δ≈-6g/5.02m<½*8%) plus I Swarm (δ≈-2g/14.25m<0.5%) near
ConcordIT Concordance (δ≈4/3m≈4%); h07:56r, Liguria/Sardegna (SS-OT-NU-OG-IM 41.23N 7.59E) m2.3: near NU (δ≈-29g/17.45m<6%) Concordance; h08:35r, Tonga ESE Neiafu (19.35S 172.71W) m6.6:
general Concordance (δ≈-6/4.49m≈4%) near Swarm (δ≈-3g/29.9m≈0.3%); h17:47r, Indonesia ESE Baubau (6.00S 124.92E) m6.1: emi-Concordance (δ≈-10g/3.02m≈½*22%)
- 02'10 h00:25r, Atlantic S Mid-Ridge (46.83S 10.54W) m5.5: local II Planetary Peak (δ≈15/(5.95m-2)≈8%); h05:39r, Philippines ENE Panganiban (14.21N 124.85E) m5.9: near (δ≈16g/4.49m<½*24%)
emi-Concordance;
h23:25r, Sicily Eolie (ME-RC-VV 38.79N 15.28E) m2.4
...☻...
- 03'10 h00:32r, Sicily EN. Costa (ME-RC-PA 38.38N
14.68E) m2.6;
h01:20r, Alaska SSW Adak (51.33N 177.03W) m5.1;
h04:04r, Africa CS Prince Edward I. (46.90S
33.40E) m5.0: near
Swarm
(δ≈-57g/32.8m<6%);
h05:17r, Atlantic N Mid-Ridge (21.32N 45.40W) m5.0: local II Planetary Peak (δ≈24/(5.99m+2)≈13%); h20:36r, Papua N. Guinea NE Lorengau (0.99S 148.44E) m5.4: see 12'9;
h21:08r, Madagascar S. Indian Ocean (37.21S 52.17E) m4.9; h23:56r, Toscana W Pieve Fosciana (LU-MS-MO-SP-PI-PT-PO-LI-RE-PR 44.13N 10.39E) m2.6: local I=II (δ≈8g/(7.35m+0)<4%) Planetary Peak idem
Concordance plus PI (δ≈-10g/5.99m<6%) near MO (δ≈-21g/6.92m≈10%) & LI (δ≈-24g/6.12m≈13%)
- 04'10 h05:40r, Antarctic SE Pacific Rise (55.54S 124.75W) m5.3: II (δ≈18/(3.01m+2)<20%) Planetary Peak in Concordance (δ≈20/3.01m≈22%) plus II Swarm (δ≈1g/3.1m≈1%);
h12:01r, Sicily Eolie (ME-RC-VV-PA 38.55N 14.72E) m2.8: ME (δ≈-6g/3.01m<7%) Concordance; h12:50r, Arctic/Svalbard&Mayen W Olonkinbyen (70.63N 14.73W) m5.2: emi-Concordance (δ≈9g/2.93m≈½*20%)
- 05'10 h00:11r, Tonga NNE Neiafu (17.40S 173.45W) m5.4: general I (δ≈-2/(4.49m+0)≈1%) Planetary Peak; h01:42r, Alaska SSW Unalaska (53.24N 167.12W) m5.4: emi-Concordance (δ≈-4g/2.97m<½*9%);
h04:56r, Campania Flegrei (NA-CE-SA-AV-BN-CB-PZ 40.84N 14.13E) m2.4: local I Planetary Peak (δ≈-4g/(2.5m+0)≈5%); h13:01r, Iberia/Portugal SSW Lajes'Flores (37.64N 31.65W) m4.8:
emi-Concordance (δ≈-9g/4.5m≈½*13%); h22:29r, Lucania SW Castelgrande (PZ-SA-AV-BN-FG-BT-NA-CE-MT-BA 40.73N 15.40E) m2.4: local II Planetary Peak (δ≈5/(9.9m-0)<2%)
- 06'10 h14:28r, Ande/Pacific Rise EC. (13.58S 111.15W) m5.6: I Planetary Peak (δ≈-25/(6.02m-1)<14%); h16:45r, Iceland SSE Akureyri (64.85N 17.68W) m5.1: ancient-II Swarm (δ≈-2g/22.03m≈0.3%) NEAR
far-Swarm (δ≈13g/1.5m<29%)
- 07'10 h07:39r, Greece S Palekastro (34.86N 26.23E) m4.8: local I Planetary Peak (δ≈-19/(5.98m+0)<11%); h07:52r, Greece N/Thívai SW (38.29N 23.27E) m4.7: general II (δ≈-5/(3m+8)≈5%) Planetary Peak in
Concordance (δ≈3/3m≈3%); h08:09r, Antille/Venezuela N Yaguaraparo (10.77N 62.86W) m5.0: II Planetary Peak (δ≈14/(3.03m+2)≈15%) in Concordance (δ≈16/3.03m<18%);
h12:04r, N. Zealand S Kermadec (33.50S 178.56W) m5.8: Swarm (δ≈-80g/25m<11%); h17:59r, Ande SE Easter I. (36.28S 99.20W) m5.7: near Concordance (δ≈-26/6.02m≈14%);
h20:53r, Vanuatu WSW Isangel (19.59S 169.05E) m5.5: general Swarm (δ≈11g/29.9m≈1%); h23:45r, Liguria N Fontanigorda (GE-PC-AL-SP-SV-PV-MS-PR-CR-AT 44.55N 9.30E) m2.7: local
emi-Concordance (δ≈3g/2.99m<½*7%) in CR (δ≈4g/5.95m≈2%) & GE (δ≈2g/2.99m≈2%) Concordance
- 08'10 h01:46r, Emily NW Fontanigorda (GE-PC-AL-SP-SV-PV-MS-PR-CR-AT 44.56N 9.30E) m2.5: AL (δ≈-8g/11m≈2%) near LO (δ≈-2g/5.95m≈1%) Concordance;
h04:44r, Philippines SSE Bantacan (7.40N 126.19E) m4.9; h14:41r, America CW/C. Rica WNW Tamarindo (10.42N 86.24W) m4.8
- 09'10 h04:24r, Liguria Costa (IM-SV 43.61N 7.64E) m2.7: general I Planetary Peak (δ≈-17/(2.96m+0)≈19%); h010:25r, Adriatic S Costa Gargano (FG-BT-CB-BA 41.99N 15.69E) m2.9: ConcordIT
II Planetary Peak (δ≈12/(3m-0)≈13%) in local (δ≈2g/5.02m<½*3%) emi-Concordance; h22:45r, Argentina W S. Antonio 'Cobres (24.10S 67.21W) m4.6
- 10'10 h00:54r, China E/Xuyong WNW (28.09N 105.25E) m4.9: general (δ≈13g/7.48m<½*12%) & generic (δ≈11g/4.48m≈½*16%) emi-Concordance; h07:56r, Madagascar SW Indian Ridge (37.29S 47.70E) m5.1:
II Planetary Peak (δ≈-7/(8.98m+1)<3%); h16:24r, Indian SE Ridge (47.53S 99.96E) m5.4; h16:44r, Atlantic SC. Mid-Ridge (0.93S 22.07W) m5.3: near general Concordance (δ≈-16g/5.95m<9%);
h17:20r, Sicily WS. Tirreno (TP-PA-AG 38.46N 11.98E) m2.9
- 11'10 h01:56r, Abruzzi NE Baranello (CB-IS-BN-CE-AV-NA-FG-CH-SA-BT 41.54N 14.58E) m3.1: general (δ≈-2g/2.94m<½*5%) emi-Concordance;
h02:18r, Lazio E Antrodoco (RI-AQ-TR-TE-RM-CH-VT-PE-PG-AP 42.41N 13.15E) m2.6: RI (δ≈1g/6.07m≈0.5%) Concordance; h08:42r, Philippines SSE Pondaguitan (5.80N 126.54E) m4.9: near
Swarm (δ≈-2g/12.5m≈0.5%); h11:44r, Burma/Myanmar NNE Shwebo (22.98N 95.88E) m4.9: local (δ≈-13g/5.83m<½*15%) emi-Concordance
- 12'10 h05:50r, Campania Flegrei (NA-CE-SA-AV-BN-PZ-CB 40.80N 14.15E) m2.5: near Campania II Planetary Peak (δ≈3g/(2.5m+0)≈4%) plus SA (δ≈-4g/2.99m≈4%) Concordance;
h11:59r, America CW C. Rica NW Tamarindo
(10.54N 86.13W) m6.2:
local
Concordance
(δ≈-5/7.49m≈2%);
h14:42r, Russia E/Ust’-Kamchatsk Staryy SSE (55.26N 162.92E)
m5.3:
local
II
(δ≈4/(7.55m+2)<2%)
Planetary Peak;
h23:42r, Ande SE Easter I. (36.37S 98.11W) m5.1;
h23:46r, Lucania W
Potenza (PZ-MT-SA-AV-BT-FG-BN-BA 40.65N 15.74E) m3.0:
near
PZ
(δ≈-11g/5.97m≈6%)
Concordance
- 13'10 h07:04r, Campania Flegrei (NA-CE-SA-AV-BN-PZ
40.83N 14.15E) m2.6: Campania fixed-Concordance
(δ≈4g/2.5m≈5%); h07:18r, Africa Ethiopia S Āwash (8.83N
40.14E) m4.6;
h08:19r, Lazio NW Accumoli (RI-AP-PG-TE-AQ-TR-PE-CH-VT 42.74N 13.19E) m2.5: generic I Planetary Peak (δ≈-10g/(7.51m+0)≈4%) idem Concordance; h16:06r, Ande SE Easter I. (35.99S 100.57W) m5.5:
near II Planetary Peak (δ≈-22/(6.02m+3)<12%); h17:07r, Calabria SE Costa (RC-ME-VV-CT-SR-RG 37.67N 15.95E) m2.5; h17:14r, Triveneto/Slovenia (Kranj-UD-TS-PN 46.19N 13.87E) m2.7: TS (δ≈4g/3.97m≈3%)
Concordance; h19:43r, China E/Taiwan SE Hualien (23.97N 121.62E) m5.1: local II (δ≈-4/(2.99m+26)≈3%) Planetary Peak
- 14'10 h11:31r, Argentina ENE Palma Sola (23.95S 64.21W) m5.0; h20:06r, Japan ESE Ichihara (35.50N 140.17E) m4.9
- 15'10 h05:50r, Triveneto/Austria (Svizzera-BZ-TN-CO-VA 47.10N 9.90E) m2.5: new CO (δ≈2g/5.97m≈1%) Concordance; h16:43r, Mexico SW J. M. Morelos (18.48N 106.74W) m5.2: I (δ≈-21/(7.44m+1)≈9%)
Planetary Peak; h118:48r, Greece SE Lárdos (35.55N 28.74E) m4.8: local II Planetary Peak (δ≈-11/(5.98m+0)≈6%)
- 16'10 h01:55r, Triveneto/Austria (Svizzera-BZ-TN-BS 47.12N 9.95E) m3.0; h05:21r, Greece Sea Libya (34.87N 18.96E) m3.3: near general Swarm (δ≈13g/14.25m≈3%);
h10:22r, Iran/Turkey W Doğanyol (38.31N 38.83E) m6.0: new (δ≈-34g/12.05m≈9%) Concordance near Swarm (δ≈18g/20m≈3%); h12:33r, Mexico SW José M. Morelos (18.49N 106.91W) m5.9:
Concordance (δ≈-19g/7.44m<9%); h13:29r, Philippines Mariana I. (19.18N 147.10E) m5.2: near Concordance (δ≈-38/4.49m≈28% ); h20:31r, Atlantic N Mid-Ridge (49.71N 28.49W) m5.2: general
I (δ≈-8/(5.95m-2)<5%) Planetary Peak; h23:24r, Tonga Fiji (20.07S 178.32W) m5.4
- 17'10 h203:36r, China W/Tumxuk NNW (40.96N 78.48E) m5.2: local (δ≈-25g/6.01m<½*28%) emi-Concordance; h10:59r, Iran/Turkey S Hafik (39.65N 37.34E) m4.5;
h14:45r, Atlantic S. Sandwich I. (56.35S
27.13W) m5.0; h20:35r, Sicily WS. Tirreno (PA-TP-AG 38.51N
12.64E) m2.9:
TP
(δ≈-29g/8.5m≈11%)
Concordance
...☺...
- 18'10 h01:58r, Greece N Costa Ionica (38.50N 20.45E) m4.5: local II
Swarm
(δ≈5g/28m<0.6%); h12:02r, Papua Gulf N.
Guinea SW Panguna (6.72S 155.05E) m5.0
Planetary Peak; h15:50r, Solomon NW Gizo (7.54S 156.30E) m4.9: general Swarm (δ≈14g/29.9m<2%); h18:49r, Japan Volcano I. (25.25N 142.78E) m5.4: near Concordance (δ≈-19g/2.99m≈21%)
- 19'10 h08:53r, Greece S Palekastro (34.76N 26.33E) m4.8:
local
Concordance
(δ≈-7/5.98m<4%)
- 20'10 h08:52r, Calabria N Albi (CZ-KR-CS-VV 39.07N 16.59E)
m2.9: general
I
(δ≈-8g/(3m+0)<9%)
Planetary Peak;
h18:25r, Argentina NNW Albardón (30.89S 68.75W) m5.7:
II
(δ≈13/(3.01m+4)<14%)
Planetary Peak near Swarm (δ≈-2g/29.75m≈2%); h19:26r, Papua N. Guinea WNW Panguna (5.53S 154.27E) m4.9
- 21'10 h10:29r, Vanuatu NNW Sola (12.48S 166.98E) m5.0; h22:18r, Sicily Eolie (ME-RC-CT-VV 38.35N 14.87E) m2.9: general I (δ≈-12/(6.01m+0)<7%) Planetary Peak
- 22'10 h03:57r, Tonga/Fiji S (23.93S 179.58W) m5.5: general II (δ≈10/(4.49m+5)≈7%) Planetary Peak; h05:33r, Adriatic N/Marche W Esanatoglia (MC-AN-PG-PU-TR-AR-TE-RN-VT-AQ 43.26N 12.91E) m2.8:
Marche I=II Planetary Peak (δ≈-8g/(5.97m+0)≈4%) idem Concordance also AN (δ≈5g/4.38m<4%) see 22'9 then Period change (3.98←4.38) near AR (δ≈-12g/5.88m<7%) plus local
emi-Concordance
(δ≈-14g/3.01m≈½*31%);
h14:38r, Adriatic SC. (FG-BT-CB-BA 42.26N 16.15E) m2.4:
FG
(δ≈-5g/4.01m≈4%)
Concordance;
h21:58r, Papua N. Guinea S Lorengau (3.05S 147.43E) m5.0
- 23'10 h12:35r, Japan Izu I. (31.02N 140.92E) m4.9;
h18:23r, Sicily Eolie (ME-RC-VV 38.49N 14.49E) m2.6
- 24'10 h01:00r, Russia E/Severo-Kuril’ SSW (49.40N 155.70E) m6.2: local Concordance (δ≈18g/7.55m<8%); h04:02r, Calabria SW Costa (CZ-CS-VV-RC 38.98N 15.96E) m2.5;
h04:07r, Iran WSW Fīrūzābād (28.67N 52.13E) m4.8: I Planetary Peak( (δ≈-36g/(12.05m-10)≈10%); h08:55r, Africa E/Yemen SE 'Ghayz̧ah (14.83N 53.27E) m4.6; h09:51r, Indian Mid-Ridge (42.01S 80.02E) m5.7:
local Swarm (δ≈16g/19.6m<3%); h11:52r, Tonga SSW Hihifo (16.12S 173.90W) m5.4: general Swarm (δ≈-7g/24.02m<1%)
- 25'10 h03:21r, Japan Volcano I. (25.54N 142.67E) m5.1: near I Planetary Peak (δ≈-11/(2.99m-1)≈12%); h05:00r, Papua N. Guinea S Kokopo (5.05S 152.24E) m5.2: generic I (δ≈1/(3m+0)≈1%) Planetary Peak;
h17:05r, Mexico/CA SE Stovepipe Wells (36.55N 117.06W) m4.5: Mexico II (δ≈-18/(7.44m+8)<8%) Planetary Peak; h08:35r, America CW/Mexico SW Brisas B.'Suchiate (13.96N 92.71W) m5.8: local
I (δ≈8/(7.49m+0)<4%) Planetary Peak; h13:37r, Campania S Tirreno (NA-CE-SA-AV 40.57N 13.55E) m2.4: NA (δ≈4g/5.9m≈2%) Concordance;
h13:55r, Abruzzi E Pievebovigliana (MC-PG-TE-TR-AN-AQ-PU 43.06N 13.12E) m2.4: generic II Planetary Peak (δ≈2g/(7.51m+0)<0.9%); h18:51r, Adriatic S Costa N (Fier-AB-LE-BR 40.74N 19.62E) m3.8:
LE (δ≈-4g/15.97m≈0.8%) Concordance
- 26'10 h20:08r, Abruzzi S Campotosto (AQ-TE-AP-RI-TR-CH-PE 42.55N 13.37E) m2.4: AQ (δ≈-7g/2.01m<12%) & PE (δ≈-18g/4.97m≈12%) Concordance; h21:25r, Atlantic N Mid-Ridge (23.89N 46.35W) m5.0
- 27'10 h14:03r, Liguria NW Acceglio (CN-TO-IM 44.54N 6.89E) m2.9: general (δ≈1/2.96m≈1%) Concordance; h19:30r, Iran/Turkey SSE Feke (37.64N 35.99E) m4.9: II (δ≈-33g/(12.05m+10)<9%) Planetary Peak;
h20:57r, Calabria E Cellara (CS-CZ-VV-KR 39.22N 16.37E) m3.6: general Concordance (δ≈-1g/3m≈1%) plus local Swarm (δ≈-10g/32m≈1%)
- 28'10 h11:57r, Calabria E Cellara (CS-CZ-VV-KR 39.22N 16.37E) m3.0: general II (δ≈-3g/(3m+4)≈3%) Planetary Peak; h19:30r, Sicily ES. Ionio (Malta-RG-SR 35.92N 15.45E) m3.1:
general Concordance (δ≈-5/6.01m<3%)
- 29'10 h01:32r, Solomon I. W Lata (10.99S 164.31E) m4.7; h13:29r, Calabria SW Fabrizia (VV-RC-CZ-ME-CS 38.46N 16.25E) m2.7: CS (δ≈0g/3.03m=0%) Concordance;
h15:43r, Atlantic S. Sandwich I. (59.69S 27.40W) m5.1: general II (δ≈0/(5.95m+3)=0%) Planetary Peak; h17:01r, America CE/Colombia NE Cubará (7.34N 71.87W) m4.7: local (δ≈9g/3.01m<½*20%)
emi-Concordance; h17:15r, Philippines/Micronesia NE Fais (11.70N 142.30E) m4.9: I (δ≈-25/(4.49m+0)<19%) Planetary Peak; h17:31r, Vanuatu NNE Isangel (18.66S 169.50E) m5.0: local (δ≈-13g/7.49m<½*12%)
emi-Concordance; h17:41r, Adriatic/Marche Costa (AN-PU-RN-FC 43.91N 13.32E) m3.7: RN (δ≈7g/3m<8%) NEAR RA (δ≈-5g/4.5m<4%) Concordance; h18:41r, Africa Egypt Sea (33.18N 29.72E) m4.8:
Concordance (δ≈-29g/9.02m<11%)
- 30'10 h05:15r, Triveneto/Austria (BZ-TN-PN-UD-VI-VR 47.11N 11.34E) m2.4: general (δ≈-12g/5.98m≈½*13%) emi-Concordance plus BZ (δ≈-12g/3.47m<12%) Concordance;
h11:43r, RockM.W/Oregon W Bandon (43.54N 127.80W) m6.0: emi-Concordance (δ≈24g/5.98m<½*27%); h21:33r, Adriatic N/Slovenia (Ljubljana-TS-UD-PN 45.91N 14.89E) m2.4: general
(δ≈-7g/3.01m<½*16%) emi-Concordance; h22:09r, Papua N. Guinea N Kimbe (4.45S 150.09E) m6.0: generic ConcordOF II (δ≈1/(3m+5)≈1%) Planetary Peak plus Concordance (δ≈6/3m<7% )
- 31'10 h13:10r, Sicily Eolie (ME-RC-VV-CT 38.32N 14.95E) m2.9: near general II (δ≈-23/(6.01m+21)≈11%) Planetary Peak; h13:50r, N. Zealand W Indian-Antarctic Ridge (48.90S 121.38E) m5.2: near
emi-Concordance (δ≈-29g/7.47m<½*26%); h16:41r, Calabria W Fabrizia (VV-RC-CZ-ME-CS 38.46N 16.25E) m2.7; h20:05r, Triveneto/Austria (Innsbruck-BZ-TN-BL-VI 47.09N 11.36E) m3.4: near
local (δ≈-14g/4.4m≈½*21%) emi-Concordance plus VI (δ≈-25g/7.57m≈11%) Concordance
~!~ Nov 2024 ~!~
- 01'11 h00:24r, China E Taiwan S Hualien C. (23.57N 121.60E) m5.2: local (δ≈10g/2.99m≈½*22%) emi-Concordance; h02:50r, Madagascar/Mauritius'Reunion (19.95S 66.28E) m5.1: Swarm (δ≈-23g/32m≈2%);
h03:21r, Iceland/Reykjanes R. (56.33N 34.06W) m5.4: I&II (δ≈15&4g/21.7&22.03m≈2&0.6%) Swarm; h04:07r, Papua Gulf N. Guinea S Panguna (6.94S 155.44E) m5.3: Concordance as
I Planetary Peak (δ≈-16g/(6.01m+0)<9%); h06:48r, Russia E/SSE Kuril’sk (43.90N 149.12E) m5.2: general Concordance idem I (δ≈-14g/(2.99m+0)<16%) Planetary Peak ...☻...
- 02'11 h01:42r, Indonesia N Sanana (0.55S 125.81E) m5.4: NEAR I Planetary Peak (δ≈-24g/(3.02m+0)≈26%) idem Concordance; h14:07r, America CW/Nicaragua WSW Jiquilillo (12.55N 87.95W) m5.1: local
II (δ≈5/(7.49m+11)≈2%) Planetary Peak; h23:14r, Alaska ESE Adak (51.49N 175.63W) m5.8: near I Planetary Peak (δ≈-20g/(2.97m-1)<23%) in Concordance (δ≈-21/2.97m<24%);
h23:25r, Argentina NNE Barrancas (35.70S 69.52W) m5.4: emi-Concordance (δ≈-3g/3.01m<½*7%); h23:44r, Africa Ethiopia NNW Āwash (9.24N 40.10E) m4.7: I Planetary Peak (δ≈-24/(9.02m-1)<9%)
- 03'11 h18:37r, Greece Néa Poteídaia SSW (40.10N 23.25E) m5.2: general II Swarm (δ≈-23g/16m<5%) NEAR emi-Concordance (δ≈-18g/3m≈½*40%)
- 04'11 h05:40r, Iceland Reykjanes Ridge (56.39N 34.07W) m4.9: IIInearIV Swarm (δ≈-2&-13g/21.7&22.03m≈0.3&<2%); h16:57r, Philippines W Lingig (8.03N 126.32E) m4.9: II (δ≈-19/(4.49m+0)≈14%)
~!~
* * *
htm: Seisms
Forecast * ITALY City :pdfMaxMagCN.jpg * * * MaxMagCS.jpg
* Seism World Forecast (fundamental T) * * Seism World Forecast (+half wave T/2) *
*
:= Days on Period to 22/05/23 =:
* * *
←
Tipi di faglie →*
~!~ * Emi -Concordances for a half Period * ~!~ ~!~ Rest of the seventh day ~!~Closed | Opened |
(n+½)λ/2 = |
⌠ | γ |
- ½~Prev |
Opened | Closed |
(2n+1)λ/4 |
χ | ∫ |
= 1~Prev |
Opened | Closed |
nλ/2 = 2nλ/4 |
~!~ ~!~ ~!~ Riposo del settimo giorno ~!~
~!~ Ricorrenze di semi- Periodo 2016_2018 circa la metà ≈ 3 / Settimana. Ricorrenze di semi- Periodo 2019... Concordanze periodiche proprie o planetarie e Sciami ricorrenti ≈ 6 alla Settimana. ~!~
Ricorrenze di semi- Periodo 2020--2021...2022
~!~~!~
Recurrences of half- Period are about the half ≈ 3 a Week. Planetary and internal periodic agreements plus swarm recursions ≈ 6 a Week until 12/2/2020.
NOTE: Neutron on Error ≈1,5%, Half-Time ≈932sec. ≈15,533min.; 6 Half-Time ≈93,2min. ≈1h+33±1,4min. ≈Experimental Seism Recurrence Time [cos α → ½ cos α, for 2π→2π/6]
* Expected Peaks as Periodic Prevision/Planetary
magnitudo {Tendency} → Planetary MAX *29'08 Ear\Mar\Nep{4.9}→9.4 30'08 Ven\Ear\Sat/Mar/Ura{4.9}→9.4
@ @ @
- 10'09☺... 15'09 Nep\Ear\Mer\Sun/Ven/Sat{6.3}→9.4 24/09 Jup\Ear\Sun/Mer/Mar{6.3}→9.4 - 25'09☻... - 10'10☺ - 24'10☻... 24/10 Sat\Sun\Mer/Ear/Ven{5.8}→9.4 - 8'11☺...
13'11 Mer/Sun/Ear\Mar\Ura{6.1}→9.4 22'11 Ven/Sun/Ear\Mar\Ura{6.1}→9.4 - 23'11☻... - 08'12☺... - 23'12'22☻... 30'12'22 Ear/Mer/Ven/Plu{6.6}→9.4 - 6'1'23☺... 18'01'23 Ear/Mar/Ura{6.1}→9.4
- 21'1☻... 27'01'23 Ear\Ven\Sat {4.9}→9.4 - 05'02☺... 20'2☻... 7'3☺... 21'3☻... 6'4☺... 20'4☻... 20'04'23 Ear\Mer\Ura 5'5☺...19'5☻... 26'05'23 Mar\Ear\Plu 4'6☺...18'6☻...3'7☺...17'7☻...
24'07'23 31'07'23 Mer/Ven/Ear 1'8☺... 08'08'23 Mer/Ven/Ear/Sat 16'8☻... 16'08'23 Mar/Ven/Ear/Sat 31'8☺... 15'9☻... 21'09'23 Mer/Ven/Ear/Sat - 29'9☺... 11'10'23 Ven/Ear/Sat
- 14'10☻... 15'10'23 Mar/Moo/Ear/Jup\Ven/Sat 19'10'23 Mar/Ear/Jup 28'10☺... 29'10'23 Mer/Ear\Moo\Jup 12'11☻...27'11☺...12'12☻... 24'12 Ven/Ear/Ura 27'12'23☺... 27'12'23 Ear/Mer/Mar @
- 10'1'24☻... 21'1☺... 31'01'24 Ear\Mer\Mar 02'02'24 Ear\Mer\Mar 9'2☻... 24'2☺... 02'03'24 Ear\Ven\Mar 9'3☻... 24'3☺... 03'04'24 Ear\Ven\Nep 8'4☻... 23'4☺... 8'5☻... 22'5☺...
03'06'24 Ear\Jup\Sat - 6'6☻... - 21'6☺... 6'7☻... -20'7☺... 4'8☻... 19'8☺... 23'08'24 Jup|Mar|Ear/Ven/Sat 3'9☻... 17'9☺... 24'09'24 Mer\Ear\Sat 2'10☻... 17'10☺... 1'11☻... 15'11☺... 1'12☻...
- 15'12☺... - 30'12'24☻... @ - 14'01'25☺... - 28'1☻...
~!~
!Many previsions are concordant with human seismic sensors!
~!~ ~!~
~!~ ~!~ ~!~
Celebrated UN-declared World Space Week, October 4-10
"Discovery" is the theme for World Space Week 2015, October 14-20:
Supernovas, planetary conjunctions and Earth seismicity (quantic seismology) 2015
ESERCITA.xls © ESERCITA2016.xls
Period Research on the Nepal ☼☻Ф☺֎ Seismic Magnitudo, Planets Gravity
STUDI PRO- influenza del sistema solare su clima terrestre, maree... e/o sismi!
↓CLICk!
~!~
~!~ 2016SeismI.mp3 : Seismic World Sounds Jan/May 2016: 2016SeismI.mid ~!~
~!~.~!~.~!~
Cosa fare in caso di terremoto [INGV - sezione di Bologna] Cosa fare in caso di rischio idrogeologico (alluvione)
~!~
World Agreements (Concordance) by June 2014 (Graphical Display <= CLICk!)
... ... ... 1° Quadro delle Concordanze <=CLICk! ~!~ 2014"2015 ~!~ CLICk!=> 2° Quadro delel Concordanze ... ... ...
... ... ... 3° Quadro delle Concordanze <=CLICk! ~!~ 2016"2017 ~!~ CLICk!=> 4° Quadro delle Concordanze ... ... ...
... ... ... 5° Quadro delle Concordanze <=CLICk! ~!~ 2018"2019 ~!~ CLICk!=> 6° Quadro delle Concordanze ... ... ...
... ... ... 7° Quadro delle Concordanze <=CLICk! ~!~ 2020"2021 ~!~ CLICk!=> 8° Quadro delle Concordanze ... ... ...
SEE also Stress16.xls
~ CLICk=> ... Космическая погода Space weather forecast December 1, 2015 ... <=CLICk ~
Italy Swarms :Latitud'ordo ~ Longitud'ordo: Italy Swarms
~ CLICk=> |Swarms Generals| <=CLICk ~
~ CLICk=> Swarm Lat. & Lon. <=CLICk ~
.!. = GI © IT = .!.
(Post of Supernove, planetary conjunctions and terrestrial seismicity)
2012 © Supernove, congiunzioni planetarie e sismicità terrestre Facebook © 2013
SEE also: Informazione eventi sismici e meteo (click→) World Space Week © 2013 Moncalieri TO Italy (←click)
(Click: 1 ←) ←Lista dei partecipanti attivi→ (→ 2 :Click): dettagli evento.
(click→) 2013 dominant planetary hours for ALL latitudes (←18'12'2013) on max-15 preceding events.
~!~!~! ~!~!~
EN. In the graph: a general demonstration (this was submitted to constructive criticisms of about 20 active participants away FaceBook to the conference on the WEB) that the hours of the seisms, also in the very distant localities, they are in accord with the position of these in comparison with the Planets (that induce flows of particles in gravitational field) and not only of the Sun or the Moon; in fact, the times are not tied exclusively to lunisolar peaks. Giovanni Imbalzano 10 October 2013 Moncalieri (TO)
IT. Nel grafico: dimostrazione generale (sottoposta alle critiche costruttive di circa 20 partecipanti attivi via FaceBook alla conferenza sul WEB) che le ore dei sismi, in luoghi anche molto distanti, concordano con la posizione di questi rispetto ai Pianeti (che inducono flussi di particelle in gravitazione) e non solo al Sole o alla Luna; infatti, i tempi non sono legati esclusivamente ai culmini lunisolari.
Nota Bene: nel grafico Dominant planetary hours for ALL latitudes (←03'11'2013) le "lancette" in corrispondono all'attuale opposizione (Moo/Sun) o dei Pianeti, nell'ordine Moo/Sun Mar/Nep Jup/Plu Jup/Ven Ura/Sat Ura/Mer ovvero, inversamente: Nep/Mar Plu/Jup Ven/Jup Sat/Ura Mer/Ura Sun/Moo (in verso orario) ma sovrapponendo le ore critiche in fasi successive la situazione si complica.
~!~ CLICk→ h00:00→07:59 h08:00→15:59 ←CLICk→ h16:00→23:59 ~!~
CLICk→ h00:00→24:00 Dominant planetary hours for ALL latitudes h00:00→00:00 ←CLICk
↑..CLICk..↑
dym_down dym_down.mp3 ♫♪♫♪ .mp3
Personal thanks for the data published by
Istituto Nazionale di Geofisica e Vulcanologia di Bologna,
US Geological Survey & QCN.Stanford.edu
Real Time Seismic Monitor, Pericolosità sismica in Italia
Normativa antisismica Dipartimento Protezione Civile
~!~.!.~!~
Analytical potential -ln (z) of type -WIMP * "https://independent.academia.edu/GiovanniImbalzano" * Bode law from the WIMP
© © © ©
Sintesi di un metodo (sismologia quantistica) ~!~!~!~!~ Synthesis of a method (quantic seismology)
!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~!~
The WIMPs (weakly interacting massive particles) solenoidals are the more probable quantum particles of the strength field,
see also the graph Critical hours and Planetary incidences.
From the charts we deduces that the WIMP globally produces
a less attractive forces in comparison with the standard (anti -gravity apparent).
An impromptu quantic skips are able to disperse WIMPs (n*→nW) or anti -WIMPs (nW→n*):
Spin Dependence of Dark Matter Scattering, V. Barger, W. Y. Keungc and G. Shaughnessy, Wisconsin-California-Illinois University;
Low-Mass Dark-Matter Hint from CDMS II, Higgs Boson at LHC and Darkon Models, Xiao-Gang He and Jusak Tandean, National Taiwan University;
Zeta Spectral Action, M. A. Kurkov F. Lizzi, M. Sakellariadou, A. Watcharangkool, Università di Napoli Federico II - University of London Strand.
The deduced value for masses of the WIMP in
Gravitational quantization: Seismic perturbation, Bode law and WIMP interactions, G. Imbalzano
Quantizzazione gravitazionale: Perturbazioni sismiche, legge di Bode e interazioni WIMP, G. Imbalzano
are perfectly compatibles with experiments of Labs of the Soudan(CoGeNT) and of the Gran Sasso (INFN)
~!~!~!~!~!~
Più oltre, nel RIASSUNTO previsionale, in base alle periodicità qui dedotte, sono riportate le date attese di alte magnitudo, limitate dagli Stress planetari:
Magnitudini, Coincidenze orarie e altri Indici di rischio relativi ai massimi tra fasi lunari estreme.
~ ~ ~
Tables of seismic Data & Tendencies: 1.st Faults * 2.nd Faults * Particulars
Tables of Hour concordances & Risk %: 1.st Faults' * 2.nd Faults' * Particulars'
Italy-NG Details ~!~ Italy-CS Details
(Click→) <Dettaglio delle zone di rischio mondiali> (m5.7...8); ITALY (←Click)
Significance 18'12'12-1'9'13: Picks & Long. Lat. Richter.RTF World Time Zones by Alfred Simpson
~
Prevision Max Error / Period = 1,25% < 9h / month, for Italy
Prevision Max Error / Period = 1,68% ≈ 12h / month, for Earth
M 9.0+ possible for subduction zones along 'Ring of Fire,' study suggests
Volcanic Application: Vesuvian period decrescendo, crescendo on Etna, with certain danger for next emissions...
~.~
↓
~!~ ~!~
~.~
SHINY..:
SHINY..: ~.~
:..CODEXReturn to 1.st PHASE <= ≠≠≠ =>Ritorna alla 1ª Phase =:
* * * * *
←~ Physics (fisica)...
...G.
Imbalzano
~→
~
Luna Rossa ♪♫♪♫ =CLIk!= ♫♪♫♪ .mid
~ Fenomeni naturali ~
~.~
Innalzamento degli Oceani nel XXI secolo?
click~► Austrasia ~ S. America ◄~ (N. Geograpic © Sept. 2013) ~► N. America ~ Europa ◄~click
~.~ ~.~
click~► ~ Immagini Italia ~ ◄~click
~.~
:Real Magnitude of Seisms minus my theoretic M·[cos(2πt/T)+cos(4πt/T)] to 12'8'2020:
ITALY
WORLD
Giovanni Imbalzano 2019 © Moncalieri (TO) |
~.~