"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 T_μν=g_μα g_νβ σ ds_α ds_β – g_μν 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 g_μν asimmetriche, oltre che g_μν=+g_νμ: g_μν=g_μν+g_μν con g_νμ=-g_μν 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: g_μν → γ_μν = Σ_-∞^+∞ γ_μν⁽ⁿ⁾(xⁱ)·exp[2πinx⁵/uⁱτ_i] dove  i < 5, δx⁵ ≈ uⁱδt per x^j≠i ≈ cost. In quest'ordine d'idee, introduco le onde sismiche quali correzioni moltiplicative con ampiezza a fattore di γ_μν(n) → γ_μν(n)·exp(2πniδx⁵/uⁱτ_i) ≈ γ_μν(n)·cos(2πnδt/c). Per interazioni ≈ elastiche (e. g. assiali minime, verso superficie aperta o

no) è n = 1, 2, ad eguali ampiezze γ_μν(1) = γ_μν(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.

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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

 ~

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~ ~

:= 1/1/20 27ª 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 =:

~!~ Dec 2023 ~!~

- 07'12 h00:32r, Sicily Eolie (ME-RC-VV 38.48N 14.71E) m2.5; h03:14r, Umbria E Spoleto (PG-TR-VT-AQ-TE-RM 42.75N 12.77E) m3.0: (δ≈1g/3.01m≈1%) Concordance;

    h07:19r, N. Zealand/Kermadec I. (31.24S 178.11W) m5.2: I Planetary Peak (δ≈4/(7.47m+0)<2%) plus Mag. Aver. I&II Planetary Peak (δ≈10&3/(6.04m-1&+6)<6&2%) in Concordance  (δ≈9/6.04m<5%));

    h07:34r, Iran/Azerbaijan NNE (Şuraabad 41.16N 49.74E) m5.4: II (δ≈-2/(9.5m+7)<1%) Planetary Peak; h09:50r, Sicily W Costa SW (TP-PA-AG 37.77N 12.13E) m2.7;

    h13:29r, Mexico NNE Chiautla 'Tapia (18.39N 98.55W) m5.8: far (δ≈-16/4.54m<12%) & auto-Concordance (δ≈-2/4.09m<2%) in Period change (4.09←4.54m);

    h15:12r, Abruzzi S Montelparo (FM-AP-MC-TE-AN-AQ-PE-TR-CH-PG 43.01N 13.54E) m2.4: local ex-II (δ≈4/(7.35m-0)<2%) Planetary Peak; h15:20r, Tonga ESE Pangai (20.33S 173.28W) m5.3: general

emi-Concordance (δ≈2g/4.49m<½*3%); h23:01r, China E/Taoluo SE (34.84N 119.96E) m5.1: local I (δ≈-15/(6.06m+0)≈8%) Planetary Peak
- 08'12 h00:13r, Vanuatu S Isangel (20.66S 169.21E) m7.1: local Concordance (δ≈-5/8.24m≈2%); h07:10r, Lucania W Castelsaraceno (PZ-MT-SA 40.18N 15.92E) m3.0: I Planetary Peak (δ≈-6/(9.9m+0)≈2%)

idem Concordance; h11:09r, Solomon I. SE Gizo (8.42S 157.15E) m5.8: WorldIt II Planetary Peak (δ≈4/(8.88m+10)≈1%) in Concordance (δ≈14/8.88m≈5%);

    h18:36r, Emily W Prignano 'Secchia (MO-RE-PR-BO-PT-MS-LU-PO-SP 44.45N 10.66E) m2.5: local II (δ≈-9/(5.98m+0)≈5%) Planetary Peak
- 09'12 h18:07r, Antille/Kermadec I. (29.71S 176.56W) m5.0; h01:40r, Papua Gulf N. Guinea W Panguna (6.51S 153.33E) m5.5: crescent near Concordance (δ≈-25/6.01m<14%);

    h06:19r, Vanuatu SSW Isangel (20.47S 168.81E) m5.2; h10:09r, N. Zealand U.S. Virgin I. NE (Cruz B. 18.88N 64.38W) m5.7: II Planetary Peak (δ≈2/(7.47m+4)<1%) in Concordance (δ≈6/7.47m<3%);

    h10:41r, Iceland/Reykjanes Ridge (56.69N 34.38W) m5.3: volcanic far Swarm (δ≈21g/3.47m≈20%)

- 10'12 h10:13r, Sicily E/N Ragalna (CT-EN-SR-CL-ME-RG-RC 37.64N 14.94E) m2.7: SR (δ≈1g/3.02m≈1%) Concordance; h14:12r, Indonesia S Abepura (3.65S 140.63E) m5.2: I (δ≈-1/(3.02m+0)≈1%)

Planetary Peak; h18:52r, Tonga W Neiafu (18.68S 175.48W) m6.1: Swarm (δ≈0g/16.5m=0%) in local (δ≈-1/5.98m<1%) Concordance; h20:18r, Adriatic S Gargano Costa (FG-BT-BA 42.03N 15.68E) m3.0:

local I (δ≈-7/(5.97m+0)<4%) Planetary Peak; h20:58r, Lucania/Ionio Costa (CS-TA-MT-KR 39.91N 16.73E) m2.5: local II (δ≈-4/(9.9m+0)≈1%) Planetary Peak

- 11'12 h11:28r, Atlantic S. Scotia (60.27S 33.00W) m5.7; h12:03r, Sicily E/W Linguaglossa (CT-ME-RC-SR-CL 37.82N15.07E) m2.9: general decrescent;

    h14:08r, Argentina WNW S. Antonio 'Cobres (24.11S 66.84W) m5.5: I Swarm (δ≈9g/8.5m<4%); h16:18r, Tonga WNW Neiafu (18.03S 175.31W) m5.8: local I Planetary Peak (δ0/(5.98m+0)=0%)

- 12'12 h01:20r, Tonga ESE Fangale’ounga (19.99S 173.40W) m5.6: local II Planetary Peak (δ≈0/(5.98m+1)=0%) in  MIXother emi-Concordance (δ≈-4g/4.49m<½*6%);

    h11:35r, Madagascar SW Indian Ridge (31.59S 57.73E) m5.2: 29'12 new-Concordance ...☻...

- 13'12 h14:07r, Sicily EN. Costa (ME-RC-VV-CT 38.37N 15.42E) m2.7; h20:33r, Arctic Norwegian Sea (72.57N 3.48E) m5.5: new emi-Concordance (δ≈-17g/2.93m<½*39%)
- 14'12 h03:46r, Atlantic N Mid-Ridge (17.22N 46.36W) m5.0: local emi-Concordance (δ≈-14g/5.99m<½*15%); h07:46r, Sicily Eolie (ME-RC-PA 38.51N 14.59E) m2.6;

    h10:30r, Argentina WNW S. Antonio 'Cobres (24.06S 66.79W) m5.1: II Swarm (δ≈9g/12.22m≈2%); h11:49r, America CW/Guatemala SSW (N. Concepción 13.96N 91.40W) m5.4: general

I (δ≈-17/(7.4m-1)<8%) Planetary Peak

- 15'12 h08:40r, Indonesia Banda Sea (6.88S 129.54E) m5.1; h12:14r, America CE/Colombia WSW (El Roble 9.09N 75.23W) m4.5; h17:12r, Sicily E/S Tirreno (VV-CS-ME-RC 38.99N15.38E) m3.3: local

I Planetary Peak (δ≈1/(5.99m-0)<0.6%) idem Concordance; h21:43r, Atlantic S. Helena ENE (Edinburgh 6'Seas 36.15S 9.90W) m5.3: general decrescent

- 16'12 h19:33r, Philippines N. Mariana (Maug 20.26N 145.72E) m5.7; h21:03r, Sicily W Canal S (AG-RG 36.74N 13.31E) m2.5; h21:09r, Umbria SW Ussita (MC-PG-FM-TE-TR-AQ-AN 42.94N 13.13E) m3.6:

general II Planetary Peak (δ≈6/(5.99m-0)≈3%) near local I Planetary Peak (δ≈-6/(7.49m-0)<3%) idem Concordance also FM (δ≈-3g/5.25m<2%); h22:24r, America CE/Colombia N (Jordán 6.80N 73.09W) m4.5
- 17'12 h04:06r, Calabria S Tirreno (CS-VV 39.09N 14.59E) m3.3: VV (δ≈1g/3.01m≈1%) Concordance; h13:20r, Adriatic N/Croatia (Split-PE-CH-AP-TE 43.64N 16.79E) m2.9: local I=II Planetary Peak

(δ≈5/(3.01m-0)<6%) idem Concordance plus AP (δ≈-1g/6.4m≈0.5%);  h17:59r, Mexico SSW La Esperanza ('Zapotal 14.36N 93.91W) m4.9: ex-I&II Planetary Peak (δ≈-6&-10/(4.54m+0&4)≈4&7%) &

new-I&II Planetary Peak (δ≈7&4/(4.09m+1&4)<6&≈3%); h18:54r, Vanuatu/N. Caledonia E (Tadine 21.58S 169.17E) m5.7; h19:58r, Sicily W (Malta-RG-SR-AG 36.08N 14.12E) m2.7: general

II Swarm (δ≈5g/17m<1%); h23:48r, Indonesia WNW Abepura (2.48S 140.14E) m5.1
- 18'12 h02:20r, Ande/Chile NE S. Pedro 'Atacama (22.60S 67.83W) m4.6; h08:02r, Solomon I. W Buala (8.30S 158.73E) m4.6: local I Swarm (δ≈4g/19.5m<1%) in emi-Concordance (δ≈5g/6.07m≈½*5%);

    h15:26r, India SSW (Padam 33.23N 76.83E) m5.1: local II Swarm (δ≈5g/18.7m<0.9%); h22:51r, China E/Linxia Chengguanzhen WNW (35.74N 102.83E) m5.9: local Concordance (δ≈-4/6.06m)≈2%)

- 19'12 h10:39r, Indonesia NNE Bima (7.25S 119.18E) m5.2: II (δ≈2/(3.02m+6)≈2%) Planetary Peak; h17:18r, Lazio N Sora (FR-AQ-LT-CH-PE-CE-RM-IS 41.74N 13.62E) m2.3: IS (δ≈5g/5.8m<3%) &

CH (δ≈-2g/3m≈2%) Concordance; h17:26r, Sicily E Costa (SR-RG-CT 36.44N 15.46E) m2.6

- 20'12 h07:20r, Ande/Peru SSE Iray (15.96S 72.60W) m6.2: near Swarm (δ≈-36g/10.25m<12%); h07:54r, Calabria S Samo (RC-ME-VV 38.05N 16.06E) m3.6: generic (δ≈-2g/7.49m<½*2%)

emi-Concordance; h10:17r, Atlantic S. Sandwich I. (56.11S 27.78W) m5.6: local (δ≈1g/5.95m≈½*1%) emi-Concordance; h11:32r, Campania C. Tirreno (LT-RM-NA-CE 41.07N 11.94E) m2.7: false Lazio

I=II Planetary Peak (δ≈-3/(8.02m-0)≈1%) idem Concordance in Period changed  (7.35→8.02m) plus general I Planetary Peak (δ≈3/(3.02m-9)<4%) in Concordance (δ≈-6/3.02m<7%) & CE (δ≈-11g/3m≈12%);

    h16:44r, America CW/El Salvador SSW (Intipucá 12.53N 88.25W) m4.7

- 21'12 h03:14r, Alaska SE Adak (51.33N 175.36W) m6.1: double Swarm (δ≈4&2g/17&17.5m<8&4%); h12:32r, Sicily E/W Chiaramonte Gulfi (RG-CT-SR-CL 37.03N 14.69E) m3.0: local II (δ≈7/(5.99m-0)<4%)

Planetary Peak; h22:41r, Liguria NW Demonte (CN-IM-TO-SV-AT 44.34N 7.28E) m2.2: soft local II Planetary Peak (δ≈9/(2.99m-0)≈10%)
- 22'12 h05:44r, Umbria NE Spoleto (PG-TR-VT-AQ-TE-RM 42.75N 12.77) m2.3; h06:08r, Japan ESE Ōhara (35.15N 140.91E) m5.1: II (δ≈12/(3m+3)<13%) Planetary Peak;

    h13:54r, Antille/Dominican R. NE (Samaná 19.54N 68.82W) m5.3: crescendo; h19:25r, Africa CS (52.06S 27.95E) m6.1: I (δ≈-5/(7.52m-5)≈2%) Planetary Peak near Concordance (δ≈-11/7.52m<5%)
- 23'12 h03:58r, Papua N. Guinea E Kokopo (4.55S 153.64E) m5.0: Swarm (δ≈4g/20m<0.7%); h12:11r, Tonga SE Pangai (20.44S 173.39W) m5.6: Swarm (δ≈2g/5m≈1%);

    h20:37r, Sicily W Canal S (AG-CL-RG 36.69N 13.07E) m2.6: CL (δ≈-7g/4.05m<6%) Concordance; h22:28r, Ande/Chile SW Cañete (38.08S 73.88W) m5.9

- 24'12 h04:03r, Russia E/Vilyuchinsk SSE (52.05N 158.97E) m5.7; h07:24r, Toscana N Talla (AR-FI-SI-PO-FC-PG-PT-RN-RA-PU 43.63N 11.79E) m2.3: near PI (δ≈1g/2m<2%) Concordance; 

    h13:15r, Vanuatu SSW Isangel (20.53S 168.91E) m5.8: local II (δ≈-3/(8.24m+14)≈1%) Planetary Peak: h22:29r, Madagascar Indian Mid-Ridge (15.15S 66.99E) m4.8 Ven/Ear/Ura

- 25'12 h00:05r, Adriatic S/NW Mattinata (FG-BT-BA 41.75N 16.03E) m2.4: BA (δ≈3g/2.98m≈3%) Concordance; h06:39r, Alaska S False Pass (53.54N 163.46W) m4.6;

    h12:46r, Adriatic N/S Meldola (FC-RA-RN-PU-AR-BO-FI-PO-FE-PT 44.09N 12.07E) m2.4: PO (δ≈8g/3m<9%) Concordance; h13:12r, Triveneto W Tramonti 'Sopra (PN-UD-TV-VE 46.29N 12.69E) m2.5:

local II Planetary Peak (δ≈17/(6.04m-0)≈9%) in VE (δ≈20g/24.97m<3%) & BL (δ≈6g/3.01m<7%) Concordance

- 26'12 h02:48r, Antille/Dominican R. NE (Samaná 19.63N 68.80W) m5.3: far Concordance (δ≈-24/3.03m≈26%); h07:16r, Sicily W S. Ninfa (TP-AG-PA 37.77N 12.85E) m2.5;

    h22:50r, Greece NE Rododáfni (38.30N 22.10E) m4.1: local I=II (δ≈20/(6.02m-0)≈10%) Planetary Peak idem Concordance; h22:53r, Papua N. Guinea W Madang (5.22S 145.28E) m5.1: near

emi-Concordance (δ≈15g/2.99m≈½*33%)

- 27'12 h03:32r, America CE/Guatemala S (P. S. José 13.06N 90.91W) m4.6; h12:23r, Russia W/Kirensk SSE (57.01N 108.72E) m5.3; h13:39r, Antarctic SE Pacific Rise (53.10S 118.30W) m5.7:

I (δ≈-2/(3.01m+0)≈2%) Planetary Peak idem Concordance; h15:19r, Iran/Turkey SE (İhsangazi 41.10N 33.75E) m4.7; h20:01r, Adriatic N Costa S Croatia (Split-PE-CH-TE-AP 43.48N 16.27E) m3.6: general

I Planetary Peak (δ≈-4/(3.01m+0)≈4%) ...☺... Ear/Mer/Mar

- 28'12 h04:51r, Sicily Eolie (ME-RC-VV 38.54N 15.15E) m2.5: RC (δ≈3g/3m≈3%) Concordance; h08:02r, America CW/El Salvador S (Intipucá 12.57N 88.09W) m4.8: local I (δ≈-25/(6.03m+0)<14%)

Planetary Peak; h12:06r, Iran/Turkey SSE (Akçadağ 38.20N 38.08E) m4.5; h12:34r, Greece S/Faliraki E (36.32N 28.37E) m4.3; h19:10r, Russia E/Kuril’sk SE (44.58N 148.99E) m6.5: far general

II Planetary Peak (δ≈33/(8.97m+6)<12%) Japan conflict zone; h19:33r, Umbria SW Spoleto (PG-TR-VT-AQ-TE-RM 42.72N 12.71E) m3.2: local II Planetary Peak (δ≈6/(7.49m-0)<3%)

- 29'12 h05:50r, Madagascar Mid-Indian Ridge (7.12S 67.92E) m5.7: I (δ≈-11/(8.98m-1)≈4%) Planetary Peak; h13:14r, Indian Chagos Archipelago (7.24S 68.07E) m5.1;

    h13:56r, Papua Gulf N. Guinea SW Panguna (6.95S 154.98E) m5.2; h18:57r, Argentina SE Pacific Rise (49.29S 116.21W) m5.1: III Swarm (δ≈0g/13.97m=0%);

    h21:54r, Sicily W Sea (Malta-RG-SR-AG 35.07N 13.88E) m2.7: local (δ≈0g/3.01m=½*0%) emi-Concordance
- 30'12 h04:43r, Atlantic S. Sandwich I. (54.61S 23.33W) m5.3: local Swarm (δ≈-3g/15m<0.7%) idem general I Swarm; h06:31r, Triveneto SE Ala (TN-VR-VI-VE-BS-PD-BZ-TV-RO 45.74N 11.03E) m2.8:

BZ (δ≈-2g/3.47m<2%) & TV (δ≈-3g/3.28m≈3%) Concordance; h11:31r, India/Sumatra NW Coast (2.49N 93.07E) m5.6: local I (δ≈-29/(6.13m-1)<16%) Planetary Peak;

    h19:34r, Adriatic S/Gargano Costa (FG-BT 41.94N 15.80E) m3.0: local II Planetary Peak (δ≈12/(5.97m+1)<7%) also ConcordIT I=II Planetary Peak (δ≈5/(3m+0)<6%) idem Concordance;

    h21:54r, Adriatic N/Bosnia&Herz. (Zenica-PE-CH-TE-AP 44.30N 17.89E) m4.9:general Concordance (δ≈-1/3.01m≈1%)
- 31'12 h01:25r, Papua Gulf N. Guinea WSW Panguna (6.45S 154.90E) m5.2: I (δ≈-4/(6.01m+1)≈2%) Planetary Peak; h02:04r, Atlantic S. Sandwich I. (57.22S 25.46W) m5.1: general

II Swarm  (δ≈-2g/15m≈0.4%); h02:05r, Solomon I. SE Lata (11.50S 166.43E) m5.1: local II Swarm (δ≈-9g/21m≈1%); h02:33r, Indonesia WSW Abepura (2.96S 139.35E) m6.3: I Swarm (δ≈-9g/20m<2%);

    h07:30r, Antille/Martinique NE S. Marie (15.35N 60.43W) m4.7: near I Planetary Peak (δ≈-19/(3.03m+0)<21%); h16:10r, Antarctic SW Africa (52.25S 13.49E) m5.4;

    h21:28r, China ENE Baiyin (36.77N 105.03E) m5.3: local II (δ≈6/(6.06m+3)≈3%) Planetary Peak

~!~ Jan 2024 ~!~

- 01'01 h02:58r, America CW/El Salvador SSW (P. 'Triunfo 12.50N 89.00W) m4.5; h16:18r, Japan NE Anamizu (37.50N 137.24E) m7.5: high emi-Concordance (δ≈-3g/3m<½*7%) this Period change (2.99←3m)

- 02'01 h01:31r, Emily E Brallo 'Pregola (PV-PC-AL-GE-CR-SV-MI-PR-SP-AT 44.74N 9.29E) m2.3; h07:12r, Iberia/Morocco N (Ifrane 31.93N 6.39W) m4.6; h20:03r, Sicily Eolie (ME-RC-CT 38.36N 14.86E) m2.4:

generic I Swarm (δ≈6g/21.5m≈0.9%)

- 03'01 h03:28r, Argentina WNW Vinchina (28.46S 68.94W) m5.5: I (δ≈-3/(3.01m-2)≈3%) Planetary Peak in Concordance (δ≈-5/3.01m<6%); h03:59r, Calabria S Samo (RC-ME 38.06N 16.06E) m2.7: generic

II Swarm (δ≈-13g/21.1m≈2%); h07:58r, Indonesia SW Pelabuhanratu (7.39S 106.18E) m5.3; h08:36r, Abruzzi W Ussita (MC-PG-FM-AP-TE-TR-AQ-AN 42.94N 13.13E) m2.3: TR (δ≈-1g/3.93m≈0.8%) Concordance  plus general II Planetary Peak (δ≈8/(3.02m-0)<9%); h09:38r, Philippines E Hinatuan (8.38N 126.57E) m5.2; h11:26r, Papua N. Guinea SSE Madang (5.50S 145.94E) m5.2;

    h17:11r, Tonga W (Houma 21.15S 176.39W) m5.6; h22:34r, Abruzzi W Montemonaco (AP-FM-MC-PG-TE-AQ-TR-AN-PE-CH 42.89N 13.28E) m2.3: MC (δ≈-3g/2.65m<4%)
- 04'01 h03:15r, Adriatic N/E Corinaldo (AN-PU-RN-PG-FC-AR 43.65N 13.08E) m3.0: general II Planetary Peak (δ≈-13/(3.01m+17)≈12%); h07:10r, Piemonte/Svizzera (Bern-AO-VA-CO-BI 46.82N 8.06E) m2.8: local I Planetary Peak (δ≈-1/(3.5m-2)<1%) in Concordance (δ≈-3/3.5m<2%) plus general emi-Concordance (δ≈0g/2.96m=½*0%) 

- 05'01 h03:19r, Triveneto/Austria (Slovenia-TS-GO-UD-PN 46.47N 14.54E) m2.7; h05:16r, Adriatic N/E Corinaldo (AN-PU-RN-PG-FC-AR 43.65N 13.09E)  m2.4: near PU (δ≈-8g/17.93m≈1%) Concordance;

    h09:00r, Campania NW Ricigliano (SA-PZ-AV-BN-FG-MT 40.71N 15.44E) m2.3: general II (δ≈10/(3.02m-0)≈3%) Planetary Peak in local emi-Concordance (δ≈-2g/2.98m≈½*4%);

    h10:57r, Indian-Antarctic W Ridge (49.84S 115.23E) m5.2

- 06'01 h00:15r, Ande SE Pacific Rise (24.36S 115.93W) m5.1; h05:24r, Sicily E/S Tirreno (ME-RC-VV-CS 38.64N 15.49E) m3.3: generic II Swarm (δ≈-10g/21.1m<2%);

    h16:08r, Indian Carlsberg Ridge (3.12N 65.49E) m5.6: near local Concordance (δ≈-23/6.13m<13%)

- 07'01 h02:51r, Argentina W S. Antonio'Cobres (24.31S 67.12W) m4.7; h03:59r, Ande/Bolivia WSW (Curahuara'Carangas 18.27S 69.14W) m5.2;

    h07:45r, Triveneto NW Possagno (TV-BL-VI-PD-TN-VE-PN-BZ-VR-RO 45.88N 11.84E) m2.4: old-VR (δ≈-3g/20.95m<0.5%) Concordance;

    h12:51r, Triveneto NE Chies d'Alpago (BL-PN-TV-UD-VE-BZ-PD-VI 46.19N 12.42E) m2.7: PD (δ≈-6g/9.1m≈2%) Concordance;

    h18:36r, Lazio NW Configni (RI-TR-VT-RM-AQ-PG-TE 42.47N 12.58E) m2.8: AQ (δ≈1g/2.01m<2%) Concordance

- 08'01 h02:16r, Sicily W/SW Resuttano (CL-PA-CT-AG 37.65N 13.98E) m2.5; h02:33r, Apuane N Calvi'Umbria (TR-RI-VT-RM-AQ-PG-TE 42.45N 12.56E) m2.8: RM (δ≈-10g/15.78m≈2%) Concordance;

h05:07r, Antarctic Balleny I. (62.22S 165.46E) m5.7: II (δ≈8/(3.01m+2)<9%) Planetary Peak; h07:22r, Toscana S Baiso (RE-MO-PR-BO-MS-PT-LU-SP-PO-PI 44.46N 10.61E) m2.5;

    h16:30r, Indonesia SSE Tuapejat (2.29S 99.66E) m5.2: near emi-Concordance (δ≈-9g/3.02m<½*20%); h20:18r, Tonga SE Pangai (20.88S 173.58W) m5.7: Swarm (δ≈11g/21.5m<2%)

- 09'01 h00:59r, Triveneto/Austria (Slovenia-UD-TS 46.45N 14.34E) m3.3: general I Planetary Peak (δ≈-7/(5.98m-9)≈4%); h03:03r, Papua Gulf N. Guinea SSE Panguna (7.11S 155.68E) m4.9;

    h05:13r, Philippines SE Sarangani (4.86N 126.19E) m6.7: emi-Concordance (δ≈7g/5.99m<½*8%); h11:59r, Liguria Celle'Macra (CN-TO-IM-AT-SV 44.48N 7.18E) m2.7: local (δ≈-4g/2.99m<½*9%)

emi-Concordance; h12:18r, Ande/Chile SE Ollagüe (21.92S 67.25W) m5.4; h16:17r, Alaska SSW Atka (51.20N 174.96W) m4.8; h18:10r, Japan WSW Sado (37.87N 137.76E) m5.9: I Swarm (δ≈3g/18.1m<0,6%)
- 10'01 h05:51r, Sicily W/S Tirreno (PA-TP 38.62N 13.67E) m2.7; h23:30r, Greece S/Sými WSW (36.51N 27.64E) m4.3 ...☻... 

- 11'01 h05:43r, Iceland W Höfn (64.41N 17.46W) m4.5: double I Swarm (δ≈-1g/3.5m<1%) & I Swarm (δ≈-2g/3.5m<2%); h09:18r, Umbria SW Norcia (PG-MC-RI-AP-TR-TE-AQ-VT-PE 42.77N 13.08E) m3.0:

RI (δ≈1g/3.04m≈1%) Concordance; h14:02r, China W/Afghanistan SSW (Jurm 36.51N 70.60E) m6.4: local Swarm (δ≈-14g/16.4m<3%); h22:42r, Alaska W P. Alexander (56.38N 135.80W) m5.9:

emi-Concordance (δ≈0g/2.97m=½*0%)
- 12'01 h05:22r, Greece S/Palaióchora WSW (34.88N 22.87E) m5.0: general Concordance (δ≈3/3m≈3%); h10:10r, Atlantic S Mid-Ridge (19.13S 12.22W) m5.0;

    h23:16r, Sicily E/S Tirreno (ME-RC-VV 38.41N 15.24E) m2.6
- 13'01 h01:10r, Arctic/Svalbard&Mayen ENE (Olonkinbyen 71.48N 4.04W) m4.8: see 13'12'23; h02:48r, Triveneto/Austria (Germania-TV-UD 47.52N 12.53E) m2.6;

    h16:32r, Sicily E/S Furnari (ME-RC-CT-VV 38.10N 15.13E) m2.6; h19:22r, Papua N. Guinea E Kokopo (4.51S 153.71E) m5.2
- 14'01 h00:37r, Japan Izu I. (29.44N 141.60E) m4.8; h00:37r, Adriatic S/Costa N (AB-LE-BR 41.01N 19.77E) m4.6: Albania emi-Concordance (δ≈9g/5.02m<½*12%);

    h06:31r, Iberia/Portugal W (F. Bastardo 38.69N 27.13W) m4.9: emi-Concordance (δ≈9g/4.5m≈½*13%); h07:34r, Sicily E/S Tirreno (ME-RC-VV 38.41N 15.46E) m2.8

- 15'01 h07:15r, RockM.W/CA S S. Clemente I. (32.46N 118.29W) m4.4: soft I (δ≈6/(5.98m-5)≈3%) Planetary Peak; h09:29r, Lombardia Felonica (MN-RO-FE-VR-PD-MO-BO-VI-RE-PR 44.99N 11.35E) m2.4:

BO (δ≈-6g/5.88m≈3%) Concordance; h17:42r, Atlantic S Bouvet I. (53.88S 3.04E) m5.1: general I Swarm (δ≈-2g/15m≈0.4%); h20:10r, Russia W/Kurumkan NW (54.81N 109.65E) m5.4: far local  Concordance

(δ≈7/5.99m≈15%)

- 16'01 h01:47r, Calabria S Tirreno (CS-VV-ME-RC 39.01N 15.06E) m3.0: local (δ≈-7g/7.48m≈½*6%) emi-Concordance; h03:58r, Vanuatu NNW Isangel (18.69S 168.78E) m5.1;

    h06:52r, Greece S/Leonídio NNE (37.26N 22.90E) m5.0: general I (δ≈-1/(3m+0)≈1%) Planetary Peak; h18:48r, Japan WSW Anamizu (37.20N 136.73E) m5.0;

    h22:07r, Sicily Eolie (ME-VV-RC 38.66N 14.79E) m2.5
- 17'01 h02:29r, Indonesia E Bitung (1.35N 126.32E) m5.1; h04:39r, Calabria NE Cerenzia (KR-CS-CZ 39.26N 16.82E) m2.2: soft KR (δ≈-3g/3m≈3%) Concordance;

    h08:32r, Abruzzi SW Pretoro (CH-PE-AQ-TE 42.19N 14.11E) m2.4: TE (δ≈1g/5.97m<0.6%) Concordance; h17:05r, Tonga WSW Houma (21.65S 176.25W) m5.8;

    h18:07r, Piemonte E Front (TO-AT-NO-AL-VA-CN 45.29N 7.71E) m2.7: local II Planetary Peak (δ≈10/(3.5m-0)<10%); h20:18r, Lazio W Onano (VT-GR-TR-SI-PG-AR 42.69N 11.79E) m3.1: general