Mahmoud Salama
Bachelor degree in Geophysics, Faculty of Science (Certified College), Zagazig University, Egypt, May 2019, with CGPA 3.13 (Very Good).
Ambitious, resourceful and self-learner geophysicist graduate comes with good enough skills, impulses and strong scientific background. Having the exceptional necessary experiences and qualifications which gained and improved through various activities, summer internships, field trips and yard visits. Always focusing on enriching my efforts and further self-development. Gained Theoretical & practical knowledge of geology, physics and mathematics during four years of college studies.
Gmail: geo.salama97@gmail.com
Phone: (+20)1060017538
Address: Farrag Street in front of Banque du Caire, Diarb Negm City, Sharkia Governorate, Egypt.
Postal code: 44788
Ambitious, resourceful and self-learner geophysicist graduate comes with good enough skills, impulses and strong scientific background. Having the exceptional necessary experiences and qualifications which gained and improved through various activities, summer internships, field trips and yard visits. Always focusing on enriching my efforts and further self-development. Gained Theoretical & practical knowledge of geology, physics and mathematics during four years of college studies.
Gmail: geo.salama97@gmail.com
Phone: (+20)1060017538
Address: Farrag Street in front of Banque du Caire, Diarb Negm City, Sharkia Governorate, Egypt.
Postal code: 44788
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Egypt is vulnerable to environmental stress. There is a complex link between urbanization and climate change in Egypt. Climate change is expected to have adverse impacts on human in Egypt, which will be aggravated by high population densities. Rising Egypt's temperatures is a serious environmental challenge that could undermine the drive for sustainable development and will have significant impacts on political and social instability at local and regional levels. This appears well in the change of sea level and its impacts on the corrosion of the coastal zone of the Nile Delta which could turn millions of Egyptians into environmental refugees by the end of the century, freshwater supplies in Egypt, and so on!
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Recently, several investigations were carried out for answering these following key questions; is the composition of the Moon is suitable for life? If there is water on the Moon, what is the quantity of this water and where are its locations? Also the suitability of this water for living! In which form water existing on the Moon?! The present study aims to review the answers of these critical key questions, through reviewing the recent researches in this field which were carried out by space agencies and scientists.
Migration was one of the earliest seismic imaging tools. Historically, the very earliest was simply the display of single-fold analog seismic records. These records full of diffracted energy and random noise but still gave a rendition of the Earth’s subsurface. Seismic data are recorded traces of waves that have been reflected from anomalies in the subsurface. The purpose of seismic migration is to migrate the recorded events to their correct spatial positions for creating a true image of structures within the Earth.
This research which based on other scientific works gives a brief description of the Nile delta aquifer and review previous studies on its groundwater and presents an overview of the seawater intrusion problem within it. The salinity of the water is an important parameter in groundwater evaluation research. All the studies showed that the concentration of saltwater had increased within the aquifer in the last decades and exceeded the World Health Organization standards for drinking water. Additionally, the transition/dynamic zone related to sea level rise and/or excessive pumping can be addressed. Those studies were conducted by using direct current resistivity technique to demonstrate the vertical and horizontal salinity distributions in the area and answer the critical key questions regarding the current and future management of the Nile Delta Aquifer.
Egypt is vulnerable to environmental stress. There is a complex link between urbanization and climate change in Egypt. Climate change is expected to have adverse impacts on human in Egypt, which will be aggravated by high population densities. Rising Egypt's temperatures is a serious environmental challenge that could undermine the drive for sustainable development and will have significant impacts on political and social instability at local and regional levels. This appears well in the change of sea level and its impacts on the corrosion of the coastal zone of the Nile Delta which could turn millions of Egyptians into environmental refugees by the end of the century, freshwater supplies in Egypt, and so on!
Recently, several investigations were carried out for answering these following key questions; is the composition of the Moon is suitable for life? If there is water on the Moon, what is the quantity of this water and where are its locations? Also the suitability of this water for living! In which form water existing on the Moon?! The present study aims to review the answers of these critical key questions, through reviewing the recent researches in this field which were carried out by space agencies and scientists.
Migration was one of the earliest seismic imaging tools. Historically, the very earliest was simply the display of single-fold analog seismic records. These records full of diffracted energy and random noise but still gave a rendition of the Earth’s subsurface. Seismic data are recorded traces of waves that have been reflected from anomalies in the subsurface. The purpose of seismic migration is to migrate the recorded events to their correct spatial positions for creating a true image of structures within the Earth.
This research which based on other scientific works gives a brief description of the Nile delta aquifer and review previous studies on its groundwater and presents an overview of the seawater intrusion problem within it. The salinity of the water is an important parameter in groundwater evaluation research. All the studies showed that the concentration of saltwater had increased within the aquifer in the last decades and exceeded the World Health Organization standards for drinking water. Additionally, the transition/dynamic zone related to sea level rise and/or excessive pumping can be addressed. Those studies were conducted by using direct current resistivity technique to demonstrate the vertical and horizontal salinity distributions in the area and answer the critical key questions regarding the current and future management of the Nile Delta Aquifer.