Beklenen İstanbul Depremlerinin geçmişte Adalara yakın olduğu gibi gelecekte adalara yakın olabileceği sürekli tartışılır. İlk defa Adalarda "İstanbul Depremi ve Adalar Oturumu" JFMO İstanbul Şube tarafından organize edildi ve bu organizasyon için 18 Eylül 1963 M6.3 Adalar depreminden 50 Yıl sonra gerçekleşti. Katılım çok iyiydi ve Jeofizik Mühendisi Deprem Uzmanları Adalı yaşayanlara depremle ilgili gerçekleri bilimsel verilerle açıklamaya çalıştı. Halkın diliyle Bilim İnsanının dili arasında ki farktan dolayı toplantı sürecinde anlaşılmayan kısımlar oldu ve bu kısımlar sorularla giderildi. Jeofizik Mühendisleri Deprem Uzmanları Adalı Yaşayanlarla Yüzleştiği İlk ve Tek Toplantı olarak yapılan organizasyon TARİHE GEÇTİ. JFMO İstanbul Şube düzenlediği bir toplantıyla TARİH YAZDI dense abartı sayılmamalı çünkü Adalar Tarihinde Yaşayan Adalılarla Jeofizik Mühendisi Bilim Uzmanlarının ÖZEL DEPREM OTURUMUNDA ilk yüzleşmesiydi
Beklenen İstanbul Depremlerinin geçmişte Adalara yakın olduğu gibi gelecekte adalara yakın olabileceği sürekli tartışılır. İlk defa Adalarda "İstanbul Depremi ve Adalar Oturumu" JFMO İstanbul Şube tarafından organize edildi ve bu organizasyon için 18 Eylül 1963 M6.3 Adalar depreminden 50 Yıl sonra gerçekleşti. Katılım çok iyiydi ve Jeofizik Mühendisi Deprem Uzmanları Adalı yaşayanlara depremle ilgili gerçekleri bilimsel verilerle açıklamaya çalıştı. Halkın diliyle Bilim İnsanının dili arasında ki farktan dolayı toplantı sürecinde anlaşılmayan kısımlar oldu ve bu kısımlar sorularla giderildi. Jeofizik Mühendisleri Deprem Uzmanları Adalı Yaşayanlarla Yüzleştiği İlk ve Tek Toplantı olarak yapılan organizasyon TARİHE GEÇTİ. JFMO İstanbul Şube düzenlediği bir toplantıyla TARİH YAZDI dense abartı sayılmamalı çünkü Adalar Tarihinde Yaşayan Adalılarla Jeofizik Mühendisi Bilim Uzmanlarının ÖZEL DEPREM OTURUMUNDA ilk yüzleşmesiydi
Gravimetri Dersi için aşağıda ki videoları izleyebilirsiniz.
Link 01: https://www.youtube.com/watch?v=HTyjVaVGx0k
Link 02: https://www.youtube.com/watch?v=fUkfgI8XaOE
The document discusses gravity anomalies and density variations in different regions based on gravity data. It shows how gravity maps reveal details about crustal thickness, tectonic features like faults and volcanic zones, and plate boundaries. Specific examples discussed include the Tibetan Plateau, Central America subduction zone, an area in Chugoku, Japan, and the state of Florida in the US. Regional gravity data can be used to model density changes associated with plate tectonics, crustal evolution, and volcanic and tectonic activity.
The USF team reviewed a geophysical investigation of the Kar Kar region conducted by WesternGeco in 2011. They found that WesternGeco's magnetotelluric (MT) data and models were of high quality. Both the WesternGeco and USF MT models identified a low resistivity zone at 300m depth that correlates with a water-bearing zone found in Borehole 4. USF performed gravity modeling which identified a north-south trending basin reaching 1500m depth, consistent with mapped faults. A preliminary hydrothermal model suggested observed temperatures could result from deep circulation of meteoric waters in the basin without needing a localized heat source. Additional geophysical data is recommended around the Jermaghbyur hot springs to
This document summarizes a study that used gravity data to delineate underground structure in the Beppu geothermal field in Japan. Analysis of Bouguer anomaly maps revealed high anomalies in the southern and northern parts of the study area that correspond to known geological formations. Edge detection filtering of the gravity data helped identify subsurface faults, including the northern edge of the high southern anomaly corresponding to the Asamigawa Fault. Depth modeling of the gravity basement showed differences between the southern and northern hot spring areas, with steep basement slopes along faults in the south and uplifted basement in the north.
This document summarizes the development of a new ultra-high resolution model of Earth's gravity field called GGMplus. Key points:
- GGMplus combines satellite gravity data from GOCE and GRACE with terrestrial gravity data and topography to achieve unprecedented 200m spatial resolution globally.
- It provides gridded estimates of gravity, horizontal and radial field components, and quasi-geoid heights at over 3 billion points covering 80% of the Earth's land.
- GGMplus reveals new details of small-scale gravity variations and identifies locations of minimum and maximum gravity, suggesting peak-to-peak variations are 40% larger than previous estimates. The model will benefit scientific and engineering applications.
Gravity measurements were taken in a region of China covering the south-north earthquake belt in 1998, 2000, 2002, and 2005. Researchers noticed significant gravity changes in the region surrounding Wenchuan and suggested in 2006 that a major earthquake could occur there in 2007 or 2008. While gravity changes were significant at some locations, more research is needed to determine if they could be considered a precursor. Uncertainties exist from measurement errors, hydrologic effects, and crustal movements. Improved data collection and analysis could enhance using gravity monitoring for earthquake research.
The document provides guidelines for implementing the H/V spectral ratio technique using ambient vibration measurements to evaluate site effects. It recommends procedures for experimental design, data processing, and interpretation. The key recommendations include measuring for sufficient duration depending on expected frequency, using multiple measurement points, avoiding disturbances, and interpreting H/V peaks in context with geological and geophysical data. Reliable H/V peaks are defined as having a clear maximum within expected frequency ranges and uncertainties. The guidelines aim to help apply the technique while accounting for its limitations.
Geopsy yaygın olarak kullanılan profesyonel bir program. Özellikle, profesyonel program deneyimi yeni mezunlarda çok aranan bir özellik. Bir öğrencim çalışmasında kullanmayı planlıyor.
Gravimetri Dersi için aşağıda ki videoları izleyebilirsiniz.
Link 01: https://www.youtube.com/watch?v=HTyjVaVGx0k
Link 02: https://www.youtube.com/watch?v=fUkfgI8XaOE
The document discusses gravity anomalies and density variations in different regions based on gravity data. It shows how gravity maps reveal details about crustal thickness, tectonic features like faults and volcanic zones, and plate boundaries. Specific examples discussed include the Tibetan Plateau, Central America subduction zone, an area in Chugoku, Japan, and the state of Florida in the US. Regional gravity data can be used to model density changes associated with plate tectonics, crustal evolution, and volcanic and tectonic activity.
The USF team reviewed a geophysical investigation of the Kar Kar region conducted by WesternGeco in 2011. They found that WesternGeco's magnetotelluric (MT) data and models were of high quality. Both the WesternGeco and USF MT models identified a low resistivity zone at 300m depth that correlates with a water-bearing zone found in Borehole 4. USF performed gravity modeling which identified a north-south trending basin reaching 1500m depth, consistent with mapped faults. A preliminary hydrothermal model suggested observed temperatures could result from deep circulation of meteoric waters in the basin without needing a localized heat source. Additional geophysical data is recommended around the Jermaghbyur hot springs to
This document summarizes a study that used gravity data to delineate underground structure in the Beppu geothermal field in Japan. Analysis of Bouguer anomaly maps revealed high anomalies in the southern and northern parts of the study area that correspond to known geological formations. Edge detection filtering of the gravity data helped identify subsurface faults, including the northern edge of the high southern anomaly corresponding to the Asamigawa Fault. Depth modeling of the gravity basement showed differences between the southern and northern hot spring areas, with steep basement slopes along faults in the south and uplifted basement in the north.
This document summarizes the development of a new ultra-high resolution model of Earth's gravity field called GGMplus. Key points:
- GGMplus combines satellite gravity data from GOCE and GRACE with terrestrial gravity data and topography to achieve unprecedented 200m spatial resolution globally.
- It provides gridded estimates of gravity, horizontal and radial field components, and quasi-geoid heights at over 3 billion points covering 80% of the Earth's land.
- GGMplus reveals new details of small-scale gravity variations and identifies locations of minimum and maximum gravity, suggesting peak-to-peak variations are 40% larger than previous estimates. The model will benefit scientific and engineering applications.
Gravity measurements were taken in a region of China covering the south-north earthquake belt in 1998, 2000, 2002, and 2005. Researchers noticed significant gravity changes in the region surrounding Wenchuan and suggested in 2006 that a major earthquake could occur there in 2007 or 2008. While gravity changes were significant at some locations, more research is needed to determine if they could be considered a precursor. Uncertainties exist from measurement errors, hydrologic effects, and crustal movements. Improved data collection and analysis could enhance using gravity monitoring for earthquake research.
The document provides guidelines for implementing the H/V spectral ratio technique using ambient vibration measurements to evaluate site effects. It recommends procedures for experimental design, data processing, and interpretation. The key recommendations include measuring for sufficient duration depending on expected frequency, using multiple measurement points, avoiding disturbances, and interpreting H/V peaks in context with geological and geophysical data. Reliable H/V peaks are defined as having a clear maximum within expected frequency ranges and uncertainties. The guidelines aim to help apply the technique while accounting for its limitations.
Geopsy yaygın olarak kullanılan profesyonel bir program. Özellikle, profesyonel program deneyimi yeni mezunlarda çok aranan bir özellik. Bir öğrencim çalışmasında kullanmayı planlıyor.
12. Saha Sismolojisi
Gürültüden dolayı iyi kayıtlar elde edilemedi ama
çalışmanın yapıldığı yerde sondaj kayıtları bulunduğu
için bu kayıtlarla yetinildi.
13. SAHA ÇALIŞMASI - 2
Saha Sismolojisi
Sismik Kırılma: Okul Binası
Derya Alkan1 ve Aykut Tekin2
1. İ.Ü. Jeofizik Mühendisliği Bölümü
2. Jeodinamik
21. Saha Sismolojisi
S jeofonu profile dik olarak yerleştirildi. P
jeofonunu düşeyde S yi de yatayda sallayınca ses
çıkarması iki jeofonun birbirinden ayrılması için
yapılacak bir yol.
22. Saha Sismolojisi
36 m profil serildi ve offset 1 m, jeofon aralıkları 3 m
alındı.Kullanılan jeofonların frekansı 14 Hz idi. Kotun
en yüksek olduğu yerde yapılan ölçüm çıkacak hafriyat
miktarını belirler.
23. Saha Sismolojisi
P düz- ters atışı yapıldıktan sonra birde cihaz ayarlanıp
MASW atışı yapıldı.daha sonra S düz –ters atışı yapıldı.
25. Saha Sismolojisi
En son profil arazi bitimindeki yol kenarında yapıldı.
Tahta gürültünün engellenmesi için takıldı .Sadece p
ölçümü yapıldı.Taşıt geçtiği sırada atış yapılmadı.