The arc reactor is some kind of fusion reactor that has the ability to generate an electromagnetic field.
Arc reactor technology is based on the cold fusion reaction.
Using this technology we can produce electricity which is beneficial to our world.
This document discusses India's rich cultural heritage spanning thousands of years. It summarizes that the oldest scripts in India are Brahmic scripts from the Ashoka pillars from 260 BC. It highlights some of India's oldest cities like Varanasi estimated at 5000 years old, and universities like Nalanda. The document also outlines some of India's oldest art forms including terracotta figures from 2500-1800 BC, and classical dances like Bharatanatyam originating from Tamil Nadu and Odissi dating back to the 2nd century BC. It emphasizes the importance of preserving India's cultural heritage and traditions.
case study on energy conservation and utilization.tamboliameer
1) The document discusses energy conservation and load distribution analysis conducted at VIIT. It analyzed the institute's energy usage and expenses from 2012-2014.
2) Solar panels were installed in 2013, which led to a decrease in electricity expenses from nearly Rs. 11 lakh in 2012 to Rs. 7.98 lakh in 2013 despite increased campus load.
3) Further energy conservation measures helped reduce expenses further to Rs. 5.14 lakh in 2014, representing over 60% savings from 2012 levels.
This document discusses the potential for a hydrogen economy. It outlines various methods for producing hydrogen, including from fossil fuels, nuclear energy, and renewable resources. The advantages and disadvantages of each production method are provided. The document also discusses challenges for hydrogen storage and some promising storage materials being researched like metal hydrides and carbon nanotubes. In conclusion, renewable hydrogen production has the most environmental benefits but also the greatest technical hurdles to widespread implementation.
The document summarizes arc reactor technology. It discusses how an arc reactor works by fusing isotopes of hydrogen to produce energy. It can generate the same amount of energy as larger fusion reactor designs but is smaller and cheaper. The document then describes how a miniature arc reactor uses different palladium isotopes to produce electricity through radioactive decay processes. It outlines the startup process and operating mechanism of the arc reactor.
1. Nuclear energy comes from the energy stored in the nucleus of atoms and can be released through nuclear fission or fusion. Fission involves splitting heavy atoms while fusion combines light atoms.
2. There are two main nuclear processes for energy production - fission and fusion. Fission of atoms like uranium is used in nuclear power plants today while fusion promises more energy but has not been achieved commercially.
3. A nuclear power plant uses fission in a reactor to heat water and produce steam that drives turbines to generate electricity. Pakistan operates 5 nuclear reactors producing around 3.6% of its total electricity.
A fuel cell is an electrochemical device that converts chemical energy into electrical energy. It uses hydrogen and oxygen to produce electricity through an electrochemical reaction. There are different types of fuel cells including alkaline, phosphoric acid, molten carbonate, and solid oxide fuel cells which differ in their electrolyte material and operating temperatures. Fuel cells have advantages such as high efficiency, zero emissions, and few moving parts, but are currently more expensive than traditional power sources and require infrastructure to handle and distribute hydrogen fuel. They have applications for power generation, transportation, portable electronics, and more.
Fuel cells generate electricity through an electrochemical reaction without combustion. They convert chemical energy stored in hydrogen fuel into electricity. Fuel cells were first demonstrated in 1839 and the first practical fuel cell was developed in 1959. Key parts include an anode, cathode, catalyst and electrolyte. Hydrogen ions pass through the electrolyte and electrons travel through an external circuit to generate electricity. Fuel cells have various applications and advantages like high efficiency and low emissions but also have disadvantages like high costs. Different types of fuel cells operate at different temperatures using different fuels and electrolytes.
This document discusses India's rich cultural heritage spanning thousands of years. It summarizes that the oldest scripts in India are Brahmic scripts from the Ashoka pillars from 260 BC. It highlights some of India's oldest cities like Varanasi estimated at 5000 years old, and universities like Nalanda. The document also outlines some of India's oldest art forms including terracotta figures from 2500-1800 BC, and classical dances like Bharatanatyam originating from Tamil Nadu and Odissi dating back to the 2nd century BC. It emphasizes the importance of preserving India's cultural heritage and traditions.
case study on energy conservation and utilization.tamboliameer
1) The document discusses energy conservation and load distribution analysis conducted at VIIT. It analyzed the institute's energy usage and expenses from 2012-2014.
2) Solar panels were installed in 2013, which led to a decrease in electricity expenses from nearly Rs. 11 lakh in 2012 to Rs. 7.98 lakh in 2013 despite increased campus load.
3) Further energy conservation measures helped reduce expenses further to Rs. 5.14 lakh in 2014, representing over 60% savings from 2012 levels.
This document discusses the potential for a hydrogen economy. It outlines various methods for producing hydrogen, including from fossil fuels, nuclear energy, and renewable resources. The advantages and disadvantages of each production method are provided. The document also discusses challenges for hydrogen storage and some promising storage materials being researched like metal hydrides and carbon nanotubes. In conclusion, renewable hydrogen production has the most environmental benefits but also the greatest technical hurdles to widespread implementation.
The document summarizes arc reactor technology. It discusses how an arc reactor works by fusing isotopes of hydrogen to produce energy. It can generate the same amount of energy as larger fusion reactor designs but is smaller and cheaper. The document then describes how a miniature arc reactor uses different palladium isotopes to produce electricity through radioactive decay processes. It outlines the startup process and operating mechanism of the arc reactor.
1. Nuclear energy comes from the energy stored in the nucleus of atoms and can be released through nuclear fission or fusion. Fission involves splitting heavy atoms while fusion combines light atoms.
2. There are two main nuclear processes for energy production - fission and fusion. Fission of atoms like uranium is used in nuclear power plants today while fusion promises more energy but has not been achieved commercially.
3. A nuclear power plant uses fission in a reactor to heat water and produce steam that drives turbines to generate electricity. Pakistan operates 5 nuclear reactors producing around 3.6% of its total electricity.
A fuel cell is an electrochemical device that converts chemical energy into electrical energy. It uses hydrogen and oxygen to produce electricity through an electrochemical reaction. There are different types of fuel cells including alkaline, phosphoric acid, molten carbonate, and solid oxide fuel cells which differ in their electrolyte material and operating temperatures. Fuel cells have advantages such as high efficiency, zero emissions, and few moving parts, but are currently more expensive than traditional power sources and require infrastructure to handle and distribute hydrogen fuel. They have applications for power generation, transportation, portable electronics, and more.
Fuel cells generate electricity through an electrochemical reaction without combustion. They convert chemical energy stored in hydrogen fuel into electricity. Fuel cells were first demonstrated in 1839 and the first practical fuel cell was developed in 1959. Key parts include an anode, cathode, catalyst and electrolyte. Hydrogen ions pass through the electrolyte and electrons travel through an external circuit to generate electricity. Fuel cells have various applications and advantages like high efficiency and low emissions but also have disadvantages like high costs. Different types of fuel cells operate at different temperatures using different fuels and electrolytes.
The document discusses different types of nuclear reactors, including their components, operation, and advantages/disadvantages. It describes pressurized water reactors (PWR), boiling water reactors (BWR), CANDU reactors, liquid metal cooled reactors, organic moderated reactors, and liquid metal fast breeder reactors. Key points covered include how each reactor type moderates and cools the nuclear fuel, controls the fission reaction, and uses the generated heat for power production. Advantages include efficient use of uranium and ability to produce additional fissile material, while disadvantages relate to safety, cost, and waste issues.
Nuclear batteries generate electricity from radioactive decay without a chain reaction. They have lifespans of decades and are over 200 times more efficient than lithium batteries. Thermal converters like radioisotope thermoelectric generators and non-thermal converters like betavoltaics are used to convert radioactive energy into electricity. Nuclear batteries have applications in spacecraft, pacemakers, and remote scientific stations due to their extremely long life and high energy density.
This document discusses nuclear batteries, which generate electricity from radioactive decay without a nuclear chain reaction. It describes two main conversion techniques: thermal and non-thermal. Thermal converters use heat from radioactive decay, like thermionic converters, radioisotope thermoelectric generators, and Stirling radioisotope generators. Non-thermal techniques include betavoltaics, which use a semiconductor junction to directly convert beta particle energy to electricity. Common radioactive isotopes used in nuclear batteries include tritium and nickel-63. Their applications include powering spacecraft, pacemakers, and other devices, due to their extremely long lifetime and high energy density.
This document provides an overview of fuel cells, including their construction, working, types, advantages, disadvantages, and applications. It describes how a fuel cell works by converting chemical energy from hydrogen into electrical energy through an electrochemical reaction with oxygen. The main types of fuel cells covered are alkaline fuel cells, phosphoric acid fuel cells, molten carbonate fuel cells, and solid oxide fuel cells. The advantages include high efficiency, zero emissions, and quiet operation. Disadvantages include the high cost of the technology and fuel production. Applications mentioned include power generation, transportation, portable electronics, and backup power supplies.
This document provides an overview of fuel cells, including:
1. Fuel cells convert chemical energy directly into electricity through electrochemical reactions. They can produce electricity continuously as long as fuel and oxygen are supplied.
2. Fuel cells are classified based on fuel/oxidizer type and electrolyte. Common types include hydrogen-oxygen, hydrocarbon, alkaline, phosphoric acid, and molten carbonate fuel cells.
3. Proton exchange membrane fuel cells (PEMFCs) operate at lower temperatures (50-100°C) and use a proton-conducting polymer membrane. They are being developed for transport and portable power applications.
1. A nuclear power plant uses nuclear fission to generate heat and convert it to usable energy. Uranium atoms are split in the nuclear reactor, producing heat to boil water into steam.
2. The steam turns turbines that generate electricity. Control rods regulate the fission rate. Steam generators, turbines, pumps, condensers, and cooling towers complete the steam/water cycle.
3. Nuclear power has low carbon emissions but produces radioactive waste disposal challenges. It also poses risks from accidents, though plants aim for maximum safety. Fuel resources like uranium are finite as well.
Fuel cells were first invented in 1838 and were developed for commercial use in 1932. A fuel cell is an electrochemical device that combines hydrogen and oxygen to produce electricity, water, and heat. It operates like a battery but does not run down or need recharging as long as fuel is supplied. A common type is the hydrogen-oxygen fuel cell, which produces electricity through the chemical reaction of hydrogen and oxygen to form water. Fuel cells have advantages such as high efficiency, low emissions and noise, and modularity.
The document discusses green energy sources such as solar and wind power. It notes two main problems with fossil fuels: they are finite and will run out, and their combustion produces polluting gases. It then provides information on various green energy technologies like solar thermal power, photovoltaics, wind turbines, and their advantages and disadvantages. Key green energy sources discussed include solar power, which can be used for daylight, drying crops, heating spaces and water, and generating electricity via concentrated solar power or photovoltaics. Wind power is also summarized, including the power density of wind at different heights and applications of wind turbines.
The document discusses different types of power generation plants. It focuses on steam turbine power plants, including fossil fuel, nuclear, geothermal, and solar thermal plants that use steam turbines. For nuclear power plants specifically, it describes the basic designs of pressurized water reactors and boiling water reactors, including their main components and how they generate steam to power turbines. The objectives are to discuss different generation plant types and their prime mover systems.
This document discusses nuclear power plants and nuclear energy. It begins by defining nuclear energy and the two ways of obtaining it: nuclear fission and nuclear fusion. It then explains how a nuclear power plant works by using nuclear fission to heat water and generate steam to power turbines. Key parts of the nuclear reactor are also outlined, including the core, moderator, control rods, coolants, and fuels. Generations of nuclear reactor designs are reviewed. The document concludes by discussing advantages and disadvantages of nuclear power plants.
This document provides an overview of nuclear power plants. It discusses nuclear fuel, the nuclear fission process, and nuclear chain reactions. It describes the main components of a nuclear power plant including the fuel tubes, shielding, moderator, control rods, coolant, containment, steam generators, turbines, and cooling towers. It also discusses common reactor types like boiling water reactors and pressurized water reactors. Finally, it provides information on nuclear power programs worldwide and in Bangladesh specifically, as well as advantages and disadvantages of nuclear power.
Indirect Power Saving From Air Conditioner is a project on regenerating energy from the waste heat of the air conditioner or you could say electrical energy waste management. The output we received is not so efficient but can be improved in further research. All types of suggestions critics are welcome. The thesis of the project link https://www.slideshare.net/SandipKumarSahoo/indirect-power-saving-from-air-conditioner-thesis
A fuel cell is an electrochemical device that converts chemical energy into electrical energy. It produces electricity through an electrochemical reaction between hydrogen and oxygen. There are several types of fuel cells including alkaline, phosphoric acid, molten carbonate, and solid oxide fuel cells. Fuel cells have advantages like high efficiency, zero emissions, and few moving parts. However, they also have disadvantages like high costs and difficulties handling hydrogen fuel. Fuel cells can be used to power vehicles, buildings, and portable electronic devices.
This presentation discusses nuclear power plants and their components. It begins with a brief history of nuclear power generation and describes nuclear fuel and fission. It then explains nuclear chain reactions and the components of a nuclear reactor, including control rods, steam generators, turbines, pumps, condensers, and cooling towers. It outlines the types of reactors and how they work via uranium fission and neutron absorption/moderation. In closing, it discusses advantages like low emissions but also disadvantages such as radioactive waste and security risks.
The document discusses various sources of energy and methods of power generation. It covers both renewable and non-renewable energy sources, including fossil fuels, nuclear power, solar power, hydroelectric power, wind power, and wave power. For each method, it outlines the basic principles and transformations of energy, as well as the relative advantages and disadvantages.
The document summarizes a presentation on the Tarapur nuclear power plant in India. It provides background that Tarapur was India's first nuclear power plant, constructed in 1963 under an agreement with the US. It then covers key topics about nuclear energy and power plants including: nuclear fission and chain reactions, components of nuclear reactors like the core and control rods, the two main types of reactors (BWR and PHWR) used at Tarapur, nuclear waste disposal methods, advantages and disadvantages of nuclear power, and the future potential of nuclear energy in India.
The document discusses energy sources and climate change. It begins by explaining energy transformations in heat engines and power generation from fossil fuels. It then covers various energy sources like nuclear power, solar, hydroelectric, wind, and wave power. Greenhouse gases are discussed along with the greenhouse effect and evidence of human-caused climate change from increased CO2 levels. Predictions of global warming effects are also mentioned.
THE SACRIFICE HOW PRO-PALESTINE PROTESTS STUDENTS ARE SACRIFICING TO CHANGE T...indexPub
The recent surge in pro-Palestine student activism has prompted significant responses from universities, ranging from negotiations and divestment commitments to increased transparency about investments in companies supporting the war on Gaza. This activism has led to the cessation of student encampments but also highlighted the substantial sacrifices made by students, including academic disruptions and personal risks. The primary drivers of these protests are poor university administration, lack of transparency, and inadequate communication between officials and students. This study examines the profound emotional, psychological, and professional impacts on students engaged in pro-Palestine protests, focusing on Generation Z's (Gen-Z) activism dynamics. This paper explores the significant sacrifices made by these students and even the professors supporting the pro-Palestine movement, with a focus on recent global movements. Through an in-depth analysis of printed and electronic media, the study examines the impacts of these sacrifices on the academic and personal lives of those involved. The paper highlights examples from various universities, demonstrating student activism's long-term and short-term effects, including disciplinary actions, social backlash, and career implications. The researchers also explore the broader implications of student sacrifices. The findings reveal that these sacrifices are driven by a profound commitment to justice and human rights, and are influenced by the increasing availability of information, peer interactions, and personal convictions. The study also discusses the broader implications of this activism, comparing it to historical precedents and assessing its potential to influence policy and public opinion. The emotional and psychological toll on student activists is significant, but their sense of purpose and community support mitigates some of these challenges. However, the researchers call for acknowledging the broader Impact of these sacrifices on the future global movement of FreePalestine.
The document discusses different types of nuclear reactors, including their components, operation, and advantages/disadvantages. It describes pressurized water reactors (PWR), boiling water reactors (BWR), CANDU reactors, liquid metal cooled reactors, organic moderated reactors, and liquid metal fast breeder reactors. Key points covered include how each reactor type moderates and cools the nuclear fuel, controls the fission reaction, and uses the generated heat for power production. Advantages include efficient use of uranium and ability to produce additional fissile material, while disadvantages relate to safety, cost, and waste issues.
Nuclear batteries generate electricity from radioactive decay without a chain reaction. They have lifespans of decades and are over 200 times more efficient than lithium batteries. Thermal converters like radioisotope thermoelectric generators and non-thermal converters like betavoltaics are used to convert radioactive energy into electricity. Nuclear batteries have applications in spacecraft, pacemakers, and remote scientific stations due to their extremely long life and high energy density.
This document discusses nuclear batteries, which generate electricity from radioactive decay without a nuclear chain reaction. It describes two main conversion techniques: thermal and non-thermal. Thermal converters use heat from radioactive decay, like thermionic converters, radioisotope thermoelectric generators, and Stirling radioisotope generators. Non-thermal techniques include betavoltaics, which use a semiconductor junction to directly convert beta particle energy to electricity. Common radioactive isotopes used in nuclear batteries include tritium and nickel-63. Their applications include powering spacecraft, pacemakers, and other devices, due to their extremely long lifetime and high energy density.
This document provides an overview of fuel cells, including their construction, working, types, advantages, disadvantages, and applications. It describes how a fuel cell works by converting chemical energy from hydrogen into electrical energy through an electrochemical reaction with oxygen. The main types of fuel cells covered are alkaline fuel cells, phosphoric acid fuel cells, molten carbonate fuel cells, and solid oxide fuel cells. The advantages include high efficiency, zero emissions, and quiet operation. Disadvantages include the high cost of the technology and fuel production. Applications mentioned include power generation, transportation, portable electronics, and backup power supplies.
This document provides an overview of fuel cells, including:
1. Fuel cells convert chemical energy directly into electricity through electrochemical reactions. They can produce electricity continuously as long as fuel and oxygen are supplied.
2. Fuel cells are classified based on fuel/oxidizer type and electrolyte. Common types include hydrogen-oxygen, hydrocarbon, alkaline, phosphoric acid, and molten carbonate fuel cells.
3. Proton exchange membrane fuel cells (PEMFCs) operate at lower temperatures (50-100°C) and use a proton-conducting polymer membrane. They are being developed for transport and portable power applications.
1. A nuclear power plant uses nuclear fission to generate heat and convert it to usable energy. Uranium atoms are split in the nuclear reactor, producing heat to boil water into steam.
2. The steam turns turbines that generate electricity. Control rods regulate the fission rate. Steam generators, turbines, pumps, condensers, and cooling towers complete the steam/water cycle.
3. Nuclear power has low carbon emissions but produces radioactive waste disposal challenges. It also poses risks from accidents, though plants aim for maximum safety. Fuel resources like uranium are finite as well.
Fuel cells were first invented in 1838 and were developed for commercial use in 1932. A fuel cell is an electrochemical device that combines hydrogen and oxygen to produce electricity, water, and heat. It operates like a battery but does not run down or need recharging as long as fuel is supplied. A common type is the hydrogen-oxygen fuel cell, which produces electricity through the chemical reaction of hydrogen and oxygen to form water. Fuel cells have advantages such as high efficiency, low emissions and noise, and modularity.
The document discusses green energy sources such as solar and wind power. It notes two main problems with fossil fuels: they are finite and will run out, and their combustion produces polluting gases. It then provides information on various green energy technologies like solar thermal power, photovoltaics, wind turbines, and their advantages and disadvantages. Key green energy sources discussed include solar power, which can be used for daylight, drying crops, heating spaces and water, and generating electricity via concentrated solar power or photovoltaics. Wind power is also summarized, including the power density of wind at different heights and applications of wind turbines.
The document discusses different types of power generation plants. It focuses on steam turbine power plants, including fossil fuel, nuclear, geothermal, and solar thermal plants that use steam turbines. For nuclear power plants specifically, it describes the basic designs of pressurized water reactors and boiling water reactors, including their main components and how they generate steam to power turbines. The objectives are to discuss different generation plant types and their prime mover systems.
This document discusses nuclear power plants and nuclear energy. It begins by defining nuclear energy and the two ways of obtaining it: nuclear fission and nuclear fusion. It then explains how a nuclear power plant works by using nuclear fission to heat water and generate steam to power turbines. Key parts of the nuclear reactor are also outlined, including the core, moderator, control rods, coolants, and fuels. Generations of nuclear reactor designs are reviewed. The document concludes by discussing advantages and disadvantages of nuclear power plants.
This document provides an overview of nuclear power plants. It discusses nuclear fuel, the nuclear fission process, and nuclear chain reactions. It describes the main components of a nuclear power plant including the fuel tubes, shielding, moderator, control rods, coolant, containment, steam generators, turbines, and cooling towers. It also discusses common reactor types like boiling water reactors and pressurized water reactors. Finally, it provides information on nuclear power programs worldwide and in Bangladesh specifically, as well as advantages and disadvantages of nuclear power.
Indirect Power Saving From Air Conditioner is a project on regenerating energy from the waste heat of the air conditioner or you could say electrical energy waste management. The output we received is not so efficient but can be improved in further research. All types of suggestions critics are welcome. The thesis of the project link https://www.slideshare.net/SandipKumarSahoo/indirect-power-saving-from-air-conditioner-thesis
A fuel cell is an electrochemical device that converts chemical energy into electrical energy. It produces electricity through an electrochemical reaction between hydrogen and oxygen. There are several types of fuel cells including alkaline, phosphoric acid, molten carbonate, and solid oxide fuel cells. Fuel cells have advantages like high efficiency, zero emissions, and few moving parts. However, they also have disadvantages like high costs and difficulties handling hydrogen fuel. Fuel cells can be used to power vehicles, buildings, and portable electronic devices.
This presentation discusses nuclear power plants and their components. It begins with a brief history of nuclear power generation and describes nuclear fuel and fission. It then explains nuclear chain reactions and the components of a nuclear reactor, including control rods, steam generators, turbines, pumps, condensers, and cooling towers. It outlines the types of reactors and how they work via uranium fission and neutron absorption/moderation. In closing, it discusses advantages like low emissions but also disadvantages such as radioactive waste and security risks.
The document discusses various sources of energy and methods of power generation. It covers both renewable and non-renewable energy sources, including fossil fuels, nuclear power, solar power, hydroelectric power, wind power, and wave power. For each method, it outlines the basic principles and transformations of energy, as well as the relative advantages and disadvantages.
The document summarizes a presentation on the Tarapur nuclear power plant in India. It provides background that Tarapur was India's first nuclear power plant, constructed in 1963 under an agreement with the US. It then covers key topics about nuclear energy and power plants including: nuclear fission and chain reactions, components of nuclear reactors like the core and control rods, the two main types of reactors (BWR and PHWR) used at Tarapur, nuclear waste disposal methods, advantages and disadvantages of nuclear power, and the future potential of nuclear energy in India.
The document discusses energy sources and climate change. It begins by explaining energy transformations in heat engines and power generation from fossil fuels. It then covers various energy sources like nuclear power, solar, hydroelectric, wind, and wave power. Greenhouse gases are discussed along with the greenhouse effect and evidence of human-caused climate change from increased CO2 levels. Predictions of global warming effects are also mentioned.
THE SACRIFICE HOW PRO-PALESTINE PROTESTS STUDENTS ARE SACRIFICING TO CHANGE T...indexPub
The recent surge in pro-Palestine student activism has prompted significant responses from universities, ranging from negotiations and divestment commitments to increased transparency about investments in companies supporting the war on Gaza. This activism has led to the cessation of student encampments but also highlighted the substantial sacrifices made by students, including academic disruptions and personal risks. The primary drivers of these protests are poor university administration, lack of transparency, and inadequate communication between officials and students. This study examines the profound emotional, psychological, and professional impacts on students engaged in pro-Palestine protests, focusing on Generation Z's (Gen-Z) activism dynamics. This paper explores the significant sacrifices made by these students and even the professors supporting the pro-Palestine movement, with a focus on recent global movements. Through an in-depth analysis of printed and electronic media, the study examines the impacts of these sacrifices on the academic and personal lives of those involved. The paper highlights examples from various universities, demonstrating student activism's long-term and short-term effects, including disciplinary actions, social backlash, and career implications. The researchers also explore the broader implications of student sacrifices. The findings reveal that these sacrifices are driven by a profound commitment to justice and human rights, and are influenced by the increasing availability of information, peer interactions, and personal convictions. The study also discusses the broader implications of this activism, comparing it to historical precedents and assessing its potential to influence policy and public opinion. The emotional and psychological toll on student activists is significant, but their sense of purpose and community support mitigates some of these challenges. However, the researchers call for acknowledging the broader Impact of these sacrifices on the future global movement of FreePalestine.
🔥🔥🔥🔥🔥🔥🔥🔥🔥
إضغ بين إيديكم من أقوى الملازم التي صممتها
ملزمة تشريح الجهاز الهيكلي (نظري 3)
💀💀💀💀💀💀💀💀💀💀
تتميز هذهِ الملزمة بعِدة مُميزات :
1- مُترجمة ترجمة تُناسب جميع المستويات
2- تحتوي على 78 رسم توضيحي لكل كلمة موجودة بالملزمة (لكل كلمة !!!!)
#فهم_ماكو_درخ
3- دقة الكتابة والصور عالية جداً جداً جداً
4- هُنالك بعض المعلومات تم توضيحها بشكل تفصيلي جداً (تُعتبر لدى الطالب أو الطالبة بإنها معلومات مُبهمة ومع ذلك تم توضيح هذهِ المعلومات المُبهمة بشكل تفصيلي جداً
5- الملزمة تشرح نفسها ب نفسها بس تكلك تعال اقراني
6- تحتوي الملزمة في اول سلايد على خارطة تتضمن جميع تفرُعات معلومات الجهاز الهيكلي المذكورة في هذهِ الملزمة
واخيراً هذهِ الملزمة حلالٌ عليكم وإتمنى منكم إن تدعولي بالخير والصحة والعافية فقط
كل التوفيق زملائي وزميلاتي ، زميلكم محمد الذهبي 💊💊
🔥🔥🔥🔥🔥🔥🔥🔥🔥
Philippine Edukasyong Pantahanan at Pangkabuhayan (EPP) CurriculumMJDuyan
(𝐓𝐋𝐄 𝟏𝟎𝟎) (𝐋𝐞𝐬𝐬𝐨𝐧 𝟏)-𝐏𝐫𝐞𝐥𝐢𝐦𝐬
𝐃𝐢𝐬𝐜𝐮𝐬𝐬 𝐭𝐡𝐞 𝐄𝐏𝐏 𝐂𝐮𝐫𝐫𝐢𝐜𝐮𝐥𝐮𝐦 𝐢𝐧 𝐭𝐡𝐞 𝐏𝐡𝐢𝐥𝐢𝐩𝐩𝐢𝐧𝐞𝐬:
- Understand the goals and objectives of the Edukasyong Pantahanan at Pangkabuhayan (EPP) curriculum, recognizing its importance in fostering practical life skills and values among students. Students will also be able to identify the key components and subjects covered, such as agriculture, home economics, industrial arts, and information and communication technology.
𝐄𝐱𝐩𝐥𝐚𝐢𝐧 𝐭𝐡𝐞 𝐍𝐚𝐭𝐮𝐫𝐞 𝐚𝐧𝐝 𝐒𝐜𝐨𝐩𝐞 𝐨𝐟 𝐚𝐧 𝐄𝐧𝐭𝐫𝐞𝐩𝐫𝐞𝐧𝐞𝐮𝐫:
-Define entrepreneurship, distinguishing it from general business activities by emphasizing its focus on innovation, risk-taking, and value creation. Students will describe the characteristics and traits of successful entrepreneurs, including their roles and responsibilities, and discuss the broader economic and social impacts of entrepreneurial activities on both local and global scales.
CapTechTalks Webinar Slides June 2024 Donovan Wright.pptxCapitolTechU
Slides from a Capitol Technology University webinar held June 20, 2024. The webinar featured Dr. Donovan Wright, presenting on the Department of Defense Digital Transformation.
Elevate Your Nonprofit's Online Presence_ A Guide to Effective SEO Strategies...TechSoup
Whether you're new to SEO or looking to refine your existing strategies, this webinar will provide you with actionable insights and practical tips to elevate your nonprofit's online presence.
Andreas Schleicher presents PISA 2022 Volume III - Creative Thinking - 18 Jun...EduSkills OECD
Andreas Schleicher, Director of Education and Skills at the OECD presents at the launch of PISA 2022 Volume III - Creative Minds, Creative Schools on 18 June 2024.
Temple of Asclepius in Thrace. Excavation resultsKrassimira Luka
The temple and the sanctuary around were dedicated to Asklepios Zmidrenus. This name has been known since 1875 when an inscription dedicated to him was discovered in Rome. The inscription is dated in 227 AD and was left by soldiers originating from the city of Philippopolis (modern Plovdiv).
This presentation was provided by Racquel Jemison, Ph.D., Christina MacLaughlin, Ph.D., and Paulomi Majumder. Ph.D., all of the American Chemical Society, for the second session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session Two: 'Expanding Pathways to Publishing Careers,' was held June 13, 2024.
Jemison, MacLaughlin, and Majumder "Broadening Pathways for Editors and Authors"
Arc reactor
1.
2. OUTLINE
INTRODUCTION
REQUIRED PARTS AND ELEMENTS
EXPLANATION ABOUT ARC REACTOR TECHNOLOGY
WORKING OF ARC REACTOR
PRODUCTION OF ENERGY BY ARC REACTOR
ADVANTAGES
DISADVANTAGES
CONCLUSION
3. INTRODUCTION
The arc reactor is some kind of fusion reactor that has
the ability to generate an electromagnetic field.
Arc reactor technology is based on the cold fusion
reaction.
Using this technology we can produce electricity which
is beneficial to our world.
4. REQUIRED PARTS
The parts in the arc reactor are
1. Containment ring
2. Electromagnetic coils
5. REQUIRED ELEMENTS
The elements used in the arc reactor are
1. Palladium
2. Deuterium or Tritium
6. EXPLANATION ABOUT ARC REACTOR
TECHNOLOGY
Arc Reactor technology is based on the cold fusion
reaction.
Cold fusion is nothing but when the concentration of
deuterium is high compared to palladium reaction will
takes place and Helium is produced with large amount
of heat.
7. The Arc reactor is donut shaped.
The reactor pictured, ITER, is under construction and is
planned to be the first fusion reactor large enough to
produce a net gain of energy. Basically it has two
isotopes of hydrogen, deuterium and tritium, together
at such high energies that they combine into one atom.
When they fuse, the reaction produces helium and
large amount of heat.
That energy can be captured
as heat
9. Arc reactor contains a palladium core with specific
isotope is important. The two isotopes of palladium
are palladium-103 and palladium-107.
When the external power supply is given to the
electromagnetic coils the gas present in the
containment ring or glass tube ionizes which is
hydrogen.
When the gas ionizes it goes into plasma state.
Due to this gamma rays will be produced and
concentrated at the centre.
10. When the gamma rays concentrated at the centre
the palladium-107 gets reacted and starts emitting
electrons.
It is a self-sustainable reaction.
After completion of the total reaction by-products
will be formed and are non radioactive elements.
11. PRODUCTION OF ENERGY BY ARC REACTOR
Arc
reactor
Heat
exchanger
Turbine
Generator
Condenser
Hot gas
Cooled
gas
Steam
Load
12. ADVANTAGES
There are no radioactive elements produced during
this process.
It is pollution free.
It gives high amount of energy.
13. DISADVANTAGES
There are no disadvantages about Arc Reactor.
Only one disadvantage is present and it is about
cost only.
14. CONCLUSION
By using this we can generate large amount of heat than the
nuclear reactor. So we can utilize this heat efficiently to
generate more power.