The development of international conflict according to technological progress...Prof . Ghada Amer
تطور الصراع الدولي وفق التقدم التكنولوجي وظهور الحروب بفضل اللامتماثلة (الحروب الغير نمطية)"
في مجلة الدراسات الإستراتيجية والعسكرية – مجلة دولية محكمة تصدر عن #المركز_الديمقراطي_العربي ألمانيا – برلين تعنى المجلة في مجال الدراسات والبحوث والأوراق البحثية في مجالات الدراسات العسكرية والأمنية والإستراتيجية الوطنية، الإقليمية والدولية.
في هذا البحث سوف نقوم بإظهار الطبيعية الحقيقية للحروب اللامتماثلة (الغير نمطية)، خاصة بعد ظهور مقالات كثيرة في مصر والعالم العربي معظمها اقتصر تركيزها على أبعاد متنوعة ركزت فيها على الحرب النفسية فقط -متجاهلة العمق التكنولوجي لتلك الحروب- باعتبار ارتباطها ارتباط وثيق بوسائل الإعلام وأعمال المخابرات، ومن ثم كان الجدل الدائر حول مفهوم أجيال الحروب مع التركيز على ما أطلق عليه "الجيل الرابع" نتيجة وجود مفهوم إعلامي دارج الكل يردده، وهذا ممكن أن يؤثر على التعرف على الأدوات الصحيحة للحروب الحديثة وبالتالي يقلل فرص امتلاك ادواتها ويضع الدول في مخاطرة كبيرة.
The Development of International #Conflict According to #Technological Progress and the Emergence of #Asymmetric_Warfare
(#Atypical_Warfare)
by Prof. Ghada Amer
مشروعات البحوث التنافسية
أهداف البرنامج التدريبي
تزويد المشاركين بالمعارف والمهارات الأساسيه اللازمة للتعرف علي مجموعه الجوانب والمبادئ والتي من خلالها يمكن التقدم للحصول علي مشروع تنافسي
بعد الانتهاء من الدورة يكون المتدرب قادرا علي
1- كيفية الاشتراك في المسابقات للحصول علي مشروع تنافسي
2- استيعاب ماهية المشروع البحثي ومكوناته
3- معرفة الأخطاء الشائعة في صياغة المشاريع
4- معرفة الإطار العام لعملية تحكيم المشاريع البحثيه
5- اكتساب مهارة الصياغة الملائمة
This presentation is part of Renewable Energy Technologies course 2020
Faculty of Engineering - Benha University
By
Prof. Ghada Amer
Category
Science & Technology
Category
Science & Technology
Category
Science & Technology
Women have a vital role in environmental management and development, this presentation present the efforts that has done to empower women in Arab region
The development of international conflict according to technological progress...Prof . Ghada Amer
تطور الصراع الدولي وفق التقدم التكنولوجي وظهور الحروب بفضل اللامتماثلة (الحروب الغير نمطية)"
في مجلة الدراسات الإستراتيجية والعسكرية – مجلة دولية محكمة تصدر عن #المركز_الديمقراطي_العربي ألمانيا – برلين تعنى المجلة في مجال الدراسات والبحوث والأوراق البحثية في مجالات الدراسات العسكرية والأمنية والإستراتيجية الوطنية، الإقليمية والدولية.
في هذا البحث سوف نقوم بإظهار الطبيعية الحقيقية للحروب اللامتماثلة (الغير نمطية)، خاصة بعد ظهور مقالات كثيرة في مصر والعالم العربي معظمها اقتصر تركيزها على أبعاد متنوعة ركزت فيها على الحرب النفسية فقط -متجاهلة العمق التكنولوجي لتلك الحروب- باعتبار ارتباطها ارتباط وثيق بوسائل الإعلام وأعمال المخابرات، ومن ثم كان الجدل الدائر حول مفهوم أجيال الحروب مع التركيز على ما أطلق عليه "الجيل الرابع" نتيجة وجود مفهوم إعلامي دارج الكل يردده، وهذا ممكن أن يؤثر على التعرف على الأدوات الصحيحة للحروب الحديثة وبالتالي يقلل فرص امتلاك ادواتها ويضع الدول في مخاطرة كبيرة.
The Development of International #Conflict According to #Technological Progress and the Emergence of #Asymmetric_Warfare
(#Atypical_Warfare)
by Prof. Ghada Amer
مشروعات البحوث التنافسية
أهداف البرنامج التدريبي
تزويد المشاركين بالمعارف والمهارات الأساسيه اللازمة للتعرف علي مجموعه الجوانب والمبادئ والتي من خلالها يمكن التقدم للحصول علي مشروع تنافسي
بعد الانتهاء من الدورة يكون المتدرب قادرا علي
1- كيفية الاشتراك في المسابقات للحصول علي مشروع تنافسي
2- استيعاب ماهية المشروع البحثي ومكوناته
3- معرفة الأخطاء الشائعة في صياغة المشاريع
4- معرفة الإطار العام لعملية تحكيم المشاريع البحثيه
5- اكتساب مهارة الصياغة الملائمة
This presentation is part of Renewable Energy Technologies course 2020
Faculty of Engineering - Benha University
By
Prof. Ghada Amer
Category
Science & Technology
Category
Science & Technology
Category
Science & Technology
Women have a vital role in environmental management and development, this presentation present the efforts that has done to empower women in Arab region
This document discusses different ways to protect ideas and intellectual property, including patents, trademarks, registered designs, copyright, and trade secrets. It provides details on each method of protection: patents provide a limited monopoly on inventions in exchange for public disclosure, trademarks protect signs that distinguish goods/services, registered designs protect product designs, copyright automatically protects creative works, and trade secrets protect confidential business information as long as reasonable steps are taken to maintain secrecy. The document advises considering these various forms of intellectual property protection to block competitors, generate licensing royalties, or sell protected rights.
Renewable Energy Technologies Course, chapter 2 hydrogen and fuel cellsProf . Ghada Amer
The document discusses different types of fuel cells, including solid oxide fuel cells (SOFCs) and molten carbonate fuel cells (MCFCs). SOFCs use a solid ceramic electrolyte and operate at very high temperatures of 800-1000°C. MCFCs use a molten carbonate salt suspended in a porous ceramic matrix as the electrolyte and operate at 650°C. Both fuel cell types allow hydrogen or other fuels to produce electricity through electrochemical reactions without combustion. While SOFCs and MCFCs offer high efficiency and fuel flexibility, their high operating temperatures also present challenges for applications and materials stability.
This presentation raises awareness of how countries can leverage space and space technologies to achieve the Sustainable Development Goals (SDGs) through concrete examples. Space science, technology and applications can support a range of pro-developmental activities, such as agricultural planning, biodiversity protection, tele-health and disaster management.
This document outlines a course on renewable energy technologies taught by Prof. Ghada Amer. The course consists of 7 chapters that cover various renewable energy sources and storage technologies. Chapter 1 provides an overview of today's energy use, fossil fuels and their environmental impacts, and renewable energy sources and devices. It introduces the basics of energy, different forms of energy, units of measurement, and energy consumption calculations. The chapter establishes that while fossil fuels are nonrenewable and cause environmental problems, renewable sources provide alternatives to address these issues.
This document discusses nuclear power and nuclear reactions. It begins by outlining the motivation for nuclear energy as a low-carbon alternative for electricity generation. It then describes the basic concepts of nuclear fission and fusion reactions, including how mass is converted to energy. Nuclear reactors are introduced as devices that use controlled fission chain reactions to generate heat for power production. The document outlines the nuclear fuel cycle and different generations of nuclear reactor designs. It also discusses challenges with nuclear power such as costs, safety, proliferation, and waste storage and disposal.
In this Chapter we will talk about the :
1- Nuclear Reactor Components
2-Types of Reactors
3- The Nuclear Fuel Cycle
4- Uranium resources in Egypt
5- Uranium resources in Egypt
In this chapter we will have introduction about Nuclear Power Station
The generation of electricity through nuclear energy reduces the amount of energy generated from fossil fuels (coal and oil). Less use of fossil fuels means lowering greenhouse gas emissions (CO2 and others).
We have always used the energy of the sun as far back as humans have existed on this planet.
We know today that the sun is simply our nearest star and without it, life would not exist on our planet. We use the sun’s energy everyday in many different ways.
we hang our clothes out in the sun to dry, for drying fish, fruits, etc.
Decaying plants hundreds of millions of years ago produced the coal, oil and natural gas that we use today. So, fossil fuels is actually sunlight stored millions and millions of years ago.
Indirectly, the sun and other stars are responsible for ALL our energy. Even nuclear energy in the fury of a nova – a star exploding.
There are many applications for the direct use of solar thermal energy, space heating and cooling, water heating, crop drying and solar cooking.
The most common use for solar thermal technology is for domestic water heating.
This document discusses different ways to protect ideas and intellectual property, including patents, trademarks, registered designs, copyright, and trade secrets. It provides details on each method of protection: patents provide a limited monopoly on inventions in exchange for public disclosure, trademarks protect signs that distinguish goods/services, registered designs protect product designs, copyright automatically protects creative works, and trade secrets protect confidential business information as long as reasonable steps are taken to maintain secrecy. The document advises considering these various forms of intellectual property protection to block competitors, generate licensing royalties, or sell protected rights.
Renewable Energy Technologies Course, chapter 2 hydrogen and fuel cellsProf . Ghada Amer
The document discusses different types of fuel cells, including solid oxide fuel cells (SOFCs) and molten carbonate fuel cells (MCFCs). SOFCs use a solid ceramic electrolyte and operate at very high temperatures of 800-1000°C. MCFCs use a molten carbonate salt suspended in a porous ceramic matrix as the electrolyte and operate at 650°C. Both fuel cell types allow hydrogen or other fuels to produce electricity through electrochemical reactions without combustion. While SOFCs and MCFCs offer high efficiency and fuel flexibility, their high operating temperatures also present challenges for applications and materials stability.
This presentation raises awareness of how countries can leverage space and space technologies to achieve the Sustainable Development Goals (SDGs) through concrete examples. Space science, technology and applications can support a range of pro-developmental activities, such as agricultural planning, biodiversity protection, tele-health and disaster management.
This document outlines a course on renewable energy technologies taught by Prof. Ghada Amer. The course consists of 7 chapters that cover various renewable energy sources and storage technologies. Chapter 1 provides an overview of today's energy use, fossil fuels and their environmental impacts, and renewable energy sources and devices. It introduces the basics of energy, different forms of energy, units of measurement, and energy consumption calculations. The chapter establishes that while fossil fuels are nonrenewable and cause environmental problems, renewable sources provide alternatives to address these issues.
This document discusses nuclear power and nuclear reactions. It begins by outlining the motivation for nuclear energy as a low-carbon alternative for electricity generation. It then describes the basic concepts of nuclear fission and fusion reactions, including how mass is converted to energy. Nuclear reactors are introduced as devices that use controlled fission chain reactions to generate heat for power production. The document outlines the nuclear fuel cycle and different generations of nuclear reactor designs. It also discusses challenges with nuclear power such as costs, safety, proliferation, and waste storage and disposal.
In this Chapter we will talk about the :
1- Nuclear Reactor Components
2-Types of Reactors
3- The Nuclear Fuel Cycle
4- Uranium resources in Egypt
5- Uranium resources in Egypt
In this chapter we will have introduction about Nuclear Power Station
The generation of electricity through nuclear energy reduces the amount of energy generated from fossil fuels (coal and oil). Less use of fossil fuels means lowering greenhouse gas emissions (CO2 and others).
We have always used the energy of the sun as far back as humans have existed on this planet.
We know today that the sun is simply our nearest star and without it, life would not exist on our planet. We use the sun’s energy everyday in many different ways.
we hang our clothes out in the sun to dry, for drying fish, fruits, etc.
Decaying plants hundreds of millions of years ago produced the coal, oil and natural gas that we use today. So, fossil fuels is actually sunlight stored millions and millions of years ago.
Indirectly, the sun and other stars are responsible for ALL our energy. Even nuclear energy in the fury of a nova – a star exploding.
There are many applications for the direct use of solar thermal energy, space heating and cooling, water heating, crop drying and solar cooking.
The most common use for solar thermal technology is for domestic water heating.
يقوم الباحثون بجمع كميات هائلة من البيانات الزلزالية لتحليلها باستخدام أنظمة التعلم العميق للذكاء الاصطناعي وذلك لاستخدام البيانات الزلزالية لتحليل حجم وأنماط الزلازل.