In this section, we examine the essential aspects of a comprehensive strategy for introducing new, "Zero Point" energy technologies to Vietnam. These aspects include labor, media, education, foreign relations, and spiritual considerations.
We examine the role that social activists - including those in the environment and public health movements - can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
New Energy technologies are enabling revolutions in many fields of science and academia according to a presentation by the Saigon New Energy Group. These include antigravity research, healthcare advances like slowing aging and speeding healing, nanotechnology such as creating machines that harvest quantum energy, and improvements to history studies by revealing ancient civilizations also had some knowledge of zero-point energy. The presentation argues that adopting new energy now in Vietnam could improve living standards, public health, transportation, national security, and economic growth.
Solar energy is helping pave the way for a greener future by saving money and reducing dependence on limited natural resources. While nature has provided for human needs, overexploitation of resources has caused irreparable damage. Shifting focus to solar power can help meet energy needs sustainably as it is natural, abundant, and can generate electricity without pollution. Solar energy can also help electrify remote areas and lower electricity bills. Initial costs of solar units are not as high as perceived once discounts and rebates are considered, and the money is earned back in savings over time.
Sustainable Energy Principles & Practice is an initiative using Auroville and its outstanding experience in human unity & sustainable living as a platform for the learning and personal growth of students from around the world. A learning-in-action program, it connects core human values with system thinking and hands-on work experience by introducing participants to local and global energy issues policies and exposing them to potential energy conservation and efficiency interventions.
- Tri Alpha Energy is a small, secretive company that operates a prototype fusion reactor in an unassuming office park building in Orange County, California.
- The company was founded over 10 years ago and is one of several private startups now working on fusion energy, taking a more nimble, rapid approach compared to large government-funded projects.
- If successful, fusion energy would revolutionize the world's energy supply by providing an abundant, clean source of power without pollution or long-lived nuclear waste. It could help mitigate climate change.
Consumer perception towards solar productsIMRAN KHAN
The document discusses consumer perception of solar power solutions in India. It begins by providing background on solar energy and its uses. It then outlines the growing energy demand in India due to population growth and declining fossil fuel reserves. Various government initiatives to promote solar energy are mentioned, along with common solar power products. The study aimed to understand consumer attitudes toward solar solutions. It found high frequencies of power cuts influenced interest. While awareness of solar alternatives was low, price was not a concern for respondents. The document recommends increasing education and awareness of solar power options.
This document discusses the challenges of addressing climate change and transitioning to renewable energy sources on a global scale. It notes that climate change will have severe negative impacts on the world's poorest people by disrupting agriculture. It also explains that reducing the price of energy could do more than any other single factor to reduce poverty. However, transitioning to renewable energy while bringing carbon dioxide emissions to net zero poses enormous technological and logistical challenges. The document analyzes four factors - population, services, energy efficiency, and carbon intensity of energy sources - that must all be addressed to achieve the goal of net zero emissions. It evaluates options like carbon capture and storage, nuclear power, wind/solar/hydro, and concludes that major technological
This document provides details of a proposed photovoltaic (PV) system design for Orphanage Emmanuel in Honduras. The team defines the problem statement as designing a small-scale PV system to reduce the orphanage's electricity costs and dependence on the power grid.
The team will research grid-tied and battery-based PV system options and select the best solution. Potential components include solar panels, microinverters, and a monitoring system. The team will design, construct, and test a prototype system. During spring break, they will install it at the orphanage and monitor performance remotely.
The document outlines the design process, resources, costs, and timeline. It also describes initial meetings to select
We examine the role that social activists - including those in the environment and public health movements - can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
New Energy technologies are enabling revolutions in many fields of science and academia according to a presentation by the Saigon New Energy Group. These include antigravity research, healthcare advances like slowing aging and speeding healing, nanotechnology such as creating machines that harvest quantum energy, and improvements to history studies by revealing ancient civilizations also had some knowledge of zero-point energy. The presentation argues that adopting new energy now in Vietnam could improve living standards, public health, transportation, national security, and economic growth.
Solar energy is helping pave the way for a greener future by saving money and reducing dependence on limited natural resources. While nature has provided for human needs, overexploitation of resources has caused irreparable damage. Shifting focus to solar power can help meet energy needs sustainably as it is natural, abundant, and can generate electricity without pollution. Solar energy can also help electrify remote areas and lower electricity bills. Initial costs of solar units are not as high as perceived once discounts and rebates are considered, and the money is earned back in savings over time.
Sustainable Energy Principles & Practice is an initiative using Auroville and its outstanding experience in human unity & sustainable living as a platform for the learning and personal growth of students from around the world. A learning-in-action program, it connects core human values with system thinking and hands-on work experience by introducing participants to local and global energy issues policies and exposing them to potential energy conservation and efficiency interventions.
- Tri Alpha Energy is a small, secretive company that operates a prototype fusion reactor in an unassuming office park building in Orange County, California.
- The company was founded over 10 years ago and is one of several private startups now working on fusion energy, taking a more nimble, rapid approach compared to large government-funded projects.
- If successful, fusion energy would revolutionize the world's energy supply by providing an abundant, clean source of power without pollution or long-lived nuclear waste. It could help mitigate climate change.
Consumer perception towards solar productsIMRAN KHAN
The document discusses consumer perception of solar power solutions in India. It begins by providing background on solar energy and its uses. It then outlines the growing energy demand in India due to population growth and declining fossil fuel reserves. Various government initiatives to promote solar energy are mentioned, along with common solar power products. The study aimed to understand consumer attitudes toward solar solutions. It found high frequencies of power cuts influenced interest. While awareness of solar alternatives was low, price was not a concern for respondents. The document recommends increasing education and awareness of solar power options.
This document discusses the challenges of addressing climate change and transitioning to renewable energy sources on a global scale. It notes that climate change will have severe negative impacts on the world's poorest people by disrupting agriculture. It also explains that reducing the price of energy could do more than any other single factor to reduce poverty. However, transitioning to renewable energy while bringing carbon dioxide emissions to net zero poses enormous technological and logistical challenges. The document analyzes four factors - population, services, energy efficiency, and carbon intensity of energy sources - that must all be addressed to achieve the goal of net zero emissions. It evaluates options like carbon capture and storage, nuclear power, wind/solar/hydro, and concludes that major technological
This document provides details of a proposed photovoltaic (PV) system design for Orphanage Emmanuel in Honduras. The team defines the problem statement as designing a small-scale PV system to reduce the orphanage's electricity costs and dependence on the power grid.
The team will research grid-tied and battery-based PV system options and select the best solution. Potential components include solar panels, microinverters, and a monitoring system. The team will design, construct, and test a prototype system. During spring break, they will install it at the orphanage and monitor performance remotely.
The document outlines the design process, resources, costs, and timeline. It also describes initial meetings to select
Here, we offer a Vietnamese perspective on possible national defense applications of Zero Point Energy in the context of the current tensions in the Paracel Islands.
Năng lượng Mới là gì?
Năng lượng Mới là một nguồn năng lượng chỉ được nghiên cứu nghiêm túc tại các trường đại học hàng đầu thế giới trong mấy năm qua. Nó không phải là năng lượng từ ánh sáng mặt trời, hay từ gió, hay từ chất thải nông nghiệp. Nó cũng không phải là năng lượng từ việc đốt than, dầu, hoặc khí. Nó không phải là thủy điện hay điện từ chất phóng xạ.
Năng lượng Mới khai thác các dao động điện từ tự nhiên trong chân không lượng tử để phát điện, chạy xe, và lọc nước biển. Nó có thể cho phép một tàu bay không bị ảnh hưởng bởi trọng lực Trái đất và như thế, nó có thể đạt vận tốc hàng chục nghìn km/giờ. Nó là một nguồn năng lượng vô tận và sạch sẽ. Và chi phí sử dụng năng lượng này thường rẻ hơn năng lượng hiện nay khoảng 90%.
Hãy tưởng tượng một thế giới không cần đến những mạng lưới điện vì mỗi hộ nhà và mỗi thiết bị gia dụng sẽ tự phát điện lực cần thiết từ chân không lượng tử. Việc trả tiền điện hàng tháng sẽ đi vào dĩ vãng. Hãy tưởng tượng một thế giới người tham gia giao thông đổ nước lã thay vì xăng để chạy xe. Đó chỉ là một vài ví dụ những gì chúng ta sẽ chứng kiến trong Thời đại Năng lượng Mới.
Theo giáo sư John Wheeler, tại một cấp độ siêu nhỏ của không gian, có một "đại dương" năng lượng vô tận liên tục được tạo ra khi năng lượng từ các chiều phi vật thể của Hệ Đa-vũ-trụ chảy vào thế giới vật chất chúng ta đang ở. Nếu chúng ta biết cách để tạo ra một trật tự trong đại dương năng lượng hỗn loạn này, chúng ta sẽ có cách để trích xuất năng lượng từ chân không lượng tử và sử dụng nó cho các mục đích cụ thể như: phát điện, tạo nhiệt, xử lý nước thải, v.v.
Báo cáo khoa học chuyên đề Năng lượng Mới của Ts. Brian E. Ostrowski tại ĐH Nguyễn Tất Thành (Tp.HCM) ngày 14/05/2015. Từ khi Năng lượng Điểm Không được công nhận là có tồn tại vào các thập niên 1910 và 1920, một thời gian lâu, hầu hết các nhà vật lý hàn lâm cho rằng không thể có cách nào để trích xuất nó. Tuy nhiên, đến Thế chiến thứ 2, một số dự án quân sự mật đã tim được một số cách để trích xuất năng lượng chân không. Dù kiến thức này được giấu kín rất cẩn thận, nhưng đến thập niên 1980, một số nhà phát minh độc lập và kỹ sư, nhà vật lý hàn lâm đã bắt đầu phổ biến kiến thức về cách khai thác năng lượng trông Trường Điểm 0 - tức là "không gian trống" theo cách nói bình dân. Mấy năm gần đây đã chứng kiến sự xuất hiện của nhiều ứng dụng Năng lượng Mới cụ thể như: máy phát điện, lò phản ứng Hợp hạch lạnh, máy nước nóng, bộ nhiên liệu nước cho ô tô, v.v. Rất may mắn, một số các sản phẩm Năng lượng Mới đang được triển khai và sản xuất tại Việt Nam.
This document discusses the potential for water to be used as a future fuel source. It provides a brief history of water fuel research dating back to Jules Verne in 1874. Recent applications of water fuel technology include electricity generation, hydrogen production, and fuel efficiency boosters. The science behind extracting energy from water involves using catalysts to extract hydrogen or producing charged water clusters. While water is abundant on Earth, major challenges include the fact that most water is seawater and retrofitting existing engines. The presentation calls for further research and engineering to develop water as a practical fuel.
Năng lượng Mới - tức là năng lượng từ "không gian trống" hay gọi theo cách chuyên môn là chân không lượng tử - là một nguồn năng lượng vô tận, sạch, và rẻ của thế kỷ 21. Với Năng lượng Mới, đang có ngày càng nhiều cơ hội trong nhiều ngành kinh tế khác nhau như: Điện lực, y tế, nông nghiệp, xử lý nước thải... Xin mời bạn thăm www.nangluongmoisaigon.org để hiểu biết thêm về Năng lượng Mới.
Here, we briefly look at Eugene Podkletnov's proposal that Zero Point Energy technologies be considered for protecting Earth from the dangers of asteroid and meteor impacts. These are low-likelihood but high-impact risks and deserve to be taken seriously by the scientific community.
We examine the role that investors and businessmen can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
El papel sellado es un tipo de papel especial con un impuesto estampado que es requerido en algunos países para trámites legales o administrativos. Fue impuesto por el rey Felipe IV en 1636 para requerir un sello oficial en documentos reales, escrituras y títulos que consistía en las armas reales, el nombre del rey y el año. El papel sellado fue creado para mejorar la burocracia, estabilizar documentos públicos y privados, y evitar fraudes; y el impuesto variaba dependiendo del valor y tipo de
In this section, we survey how New Energy science is helping us to cheaply and cleanly desalinate sea water, as well as to purify wastewater on the other end of the circuit.
We examine the role that bloggers can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
In this section, we address the common accusation made by mainstream scientists that New Energy inventors are wasting their time by attempting to "violate the Law of Conservation of Energy". We see that once the non-physical dimensions of time-space are taken into account, there is no violation of COE.
This document discusses applications of zero-point energy (ZPE) technology, including a solution for nuclear waste disposal. It notes that over 430 nuclear reactors are currently operating worldwide, producing nuclear waste that is difficult to store and poses risks for thousands of years. However, ZPE enables the transmutation of radioactive elements in nuclear waste into less dangerous or harmless isotopes through processes like low-energy nuclear reactions and plasmoid strikes. Scientists have discovered this can work to transmute the radioactive elements in nuclear fuel rods. This provides a solution for the nuclear waste problem at power plants worldwide.
The document is an ABC book created by Junie Monroe for an education class that provides brief summaries and links for terms related to social studies. Each entry defines a term and links to a source with more information. Terms include the Articles of Confederation, the Battle of Gettysburg, the Civil War, events like the bombing of Hiroshima, and concepts such as indentured servants, government, and states' rights.
The document discusses the difference between causes and effects in nonfiction texts. It defines a cause as why something happened, and an effect as the result of what happened. Causes always lead to effects. Identifying causes answers the question "why?" while effects answer "what happened?" or "what was the result?". Common clue words that signal causes include because, since, cause, reason, so that, and unless.
In this section, we see how New Energy science helps us move toward a workable Unified Field Theory; how it helps us to understand Zero Point Energy as the mysterious "dark energy" cosmologists have long posited; and how the Big Bang most likely never happened.
This document discusses techniques for extracting zero-point energy (ZPE), including using mica as a dielectric material for antigravity applications, micro-fabricating sandwiches of metal and dielectric layers per Dr. Robert Forward's suggestions, using stainless steel instead of aluminum for HHO systems, and how scratched or cracked metals may work better than pristine pieces in HHO and low-energy nuclear reaction systems. It also notes that crystals can concentrate and store ZPE for use in new energy systems and directs readers to the website for further updates and suggestions on ZPE extraction methods and materials.
In this section, we look at the significant benefits Vietnam stands to enjoy by pursuing a path of modernization built on New Energy science - as well as the dangers of failing to do so.
Executive summary for "Look Back in Anger" reportSimon Thompson
This is the executive summary for the “Look Back in Anger” global energy forecast. It’s so called because it imagines the reactions of energy industry veterans arriving in 2050 to a net-zero emission world.
Yes, that’s cause for celebration, but why were there so many barriers put in their way? Why did we make it so hard for ourselves?
To get to this moment, instead of looking through the lens of how it has always been, “Look Back in Anger” assumes key tipping points along the way.
It’s a simplified global energy model, from now until 2050 that anyone can use to test their own business assumptions.
The report assumes the effect of official decarbonisation policy in the top 21 countries by energy usage, accounting for about 84% of electricity use.
From there it plots the minimum that will be spent on renewables and builds a picture of the energy world in thirty years’ time.
By definition, this leaves a set of imponderables like:
What is the impact of home-heating and cooling in the age of electrification by 2050?
What happens when solar manufacturers double their capacity and have to sell twice as much, triggering price wars?
What happens when rooftop solar accelerates?
The report is part of the unique “Rethink Energy” research service that offers full access to all previous report plus 12 other new forecasts each year on a variety of topic drawn from batteries, solar, wind, EV recharging, and decarbonising industries like Steel.
More information at
https://rethinkresearch.biz/reports-category/rethink-energy-research/
Here, we offer a Vietnamese perspective on possible national defense applications of Zero Point Energy in the context of the current tensions in the Paracel Islands.
Năng lượng Mới là gì?
Năng lượng Mới là một nguồn năng lượng chỉ được nghiên cứu nghiêm túc tại các trường đại học hàng đầu thế giới trong mấy năm qua. Nó không phải là năng lượng từ ánh sáng mặt trời, hay từ gió, hay từ chất thải nông nghiệp. Nó cũng không phải là năng lượng từ việc đốt than, dầu, hoặc khí. Nó không phải là thủy điện hay điện từ chất phóng xạ.
Năng lượng Mới khai thác các dao động điện từ tự nhiên trong chân không lượng tử để phát điện, chạy xe, và lọc nước biển. Nó có thể cho phép một tàu bay không bị ảnh hưởng bởi trọng lực Trái đất và như thế, nó có thể đạt vận tốc hàng chục nghìn km/giờ. Nó là một nguồn năng lượng vô tận và sạch sẽ. Và chi phí sử dụng năng lượng này thường rẻ hơn năng lượng hiện nay khoảng 90%.
Hãy tưởng tượng một thế giới không cần đến những mạng lưới điện vì mỗi hộ nhà và mỗi thiết bị gia dụng sẽ tự phát điện lực cần thiết từ chân không lượng tử. Việc trả tiền điện hàng tháng sẽ đi vào dĩ vãng. Hãy tưởng tượng một thế giới người tham gia giao thông đổ nước lã thay vì xăng để chạy xe. Đó chỉ là một vài ví dụ những gì chúng ta sẽ chứng kiến trong Thời đại Năng lượng Mới.
Theo giáo sư John Wheeler, tại một cấp độ siêu nhỏ của không gian, có một "đại dương" năng lượng vô tận liên tục được tạo ra khi năng lượng từ các chiều phi vật thể của Hệ Đa-vũ-trụ chảy vào thế giới vật chất chúng ta đang ở. Nếu chúng ta biết cách để tạo ra một trật tự trong đại dương năng lượng hỗn loạn này, chúng ta sẽ có cách để trích xuất năng lượng từ chân không lượng tử và sử dụng nó cho các mục đích cụ thể như: phát điện, tạo nhiệt, xử lý nước thải, v.v.
Báo cáo khoa học chuyên đề Năng lượng Mới của Ts. Brian E. Ostrowski tại ĐH Nguyễn Tất Thành (Tp.HCM) ngày 14/05/2015. Từ khi Năng lượng Điểm Không được công nhận là có tồn tại vào các thập niên 1910 và 1920, một thời gian lâu, hầu hết các nhà vật lý hàn lâm cho rằng không thể có cách nào để trích xuất nó. Tuy nhiên, đến Thế chiến thứ 2, một số dự án quân sự mật đã tim được một số cách để trích xuất năng lượng chân không. Dù kiến thức này được giấu kín rất cẩn thận, nhưng đến thập niên 1980, một số nhà phát minh độc lập và kỹ sư, nhà vật lý hàn lâm đã bắt đầu phổ biến kiến thức về cách khai thác năng lượng trông Trường Điểm 0 - tức là "không gian trống" theo cách nói bình dân. Mấy năm gần đây đã chứng kiến sự xuất hiện của nhiều ứng dụng Năng lượng Mới cụ thể như: máy phát điện, lò phản ứng Hợp hạch lạnh, máy nước nóng, bộ nhiên liệu nước cho ô tô, v.v. Rất may mắn, một số các sản phẩm Năng lượng Mới đang được triển khai và sản xuất tại Việt Nam.
This document discusses the potential for water to be used as a future fuel source. It provides a brief history of water fuel research dating back to Jules Verne in 1874. Recent applications of water fuel technology include electricity generation, hydrogen production, and fuel efficiency boosters. The science behind extracting energy from water involves using catalysts to extract hydrogen or producing charged water clusters. While water is abundant on Earth, major challenges include the fact that most water is seawater and retrofitting existing engines. The presentation calls for further research and engineering to develop water as a practical fuel.
Năng lượng Mới - tức là năng lượng từ "không gian trống" hay gọi theo cách chuyên môn là chân không lượng tử - là một nguồn năng lượng vô tận, sạch, và rẻ của thế kỷ 21. Với Năng lượng Mới, đang có ngày càng nhiều cơ hội trong nhiều ngành kinh tế khác nhau như: Điện lực, y tế, nông nghiệp, xử lý nước thải... Xin mời bạn thăm www.nangluongmoisaigon.org để hiểu biết thêm về Năng lượng Mới.
Here, we briefly look at Eugene Podkletnov's proposal that Zero Point Energy technologies be considered for protecting Earth from the dangers of asteroid and meteor impacts. These are low-likelihood but high-impact risks and deserve to be taken seriously by the scientific community.
We examine the role that investors and businessmen can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
El papel sellado es un tipo de papel especial con un impuesto estampado que es requerido en algunos países para trámites legales o administrativos. Fue impuesto por el rey Felipe IV en 1636 para requerir un sello oficial en documentos reales, escrituras y títulos que consistía en las armas reales, el nombre del rey y el año. El papel sellado fue creado para mejorar la burocracia, estabilizar documentos públicos y privados, y evitar fraudes; y el impuesto variaba dependiendo del valor y tipo de
In this section, we survey how New Energy science is helping us to cheaply and cleanly desalinate sea water, as well as to purify wastewater on the other end of the circuit.
We examine the role that bloggers can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
In this section, we address the common accusation made by mainstream scientists that New Energy inventors are wasting their time by attempting to "violate the Law of Conservation of Energy". We see that once the non-physical dimensions of time-space are taken into account, there is no violation of COE.
This document discusses applications of zero-point energy (ZPE) technology, including a solution for nuclear waste disposal. It notes that over 430 nuclear reactors are currently operating worldwide, producing nuclear waste that is difficult to store and poses risks for thousands of years. However, ZPE enables the transmutation of radioactive elements in nuclear waste into less dangerous or harmless isotopes through processes like low-energy nuclear reactions and plasmoid strikes. Scientists have discovered this can work to transmute the radioactive elements in nuclear fuel rods. This provides a solution for the nuclear waste problem at power plants worldwide.
The document is an ABC book created by Junie Monroe for an education class that provides brief summaries and links for terms related to social studies. Each entry defines a term and links to a source with more information. Terms include the Articles of Confederation, the Battle of Gettysburg, the Civil War, events like the bombing of Hiroshima, and concepts such as indentured servants, government, and states' rights.
The document discusses the difference between causes and effects in nonfiction texts. It defines a cause as why something happened, and an effect as the result of what happened. Causes always lead to effects. Identifying causes answers the question "why?" while effects answer "what happened?" or "what was the result?". Common clue words that signal causes include because, since, cause, reason, so that, and unless.
In this section, we see how New Energy science helps us move toward a workable Unified Field Theory; how it helps us to understand Zero Point Energy as the mysterious "dark energy" cosmologists have long posited; and how the Big Bang most likely never happened.
This document discusses techniques for extracting zero-point energy (ZPE), including using mica as a dielectric material for antigravity applications, micro-fabricating sandwiches of metal and dielectric layers per Dr. Robert Forward's suggestions, using stainless steel instead of aluminum for HHO systems, and how scratched or cracked metals may work better than pristine pieces in HHO and low-energy nuclear reaction systems. It also notes that crystals can concentrate and store ZPE for use in new energy systems and directs readers to the website for further updates and suggestions on ZPE extraction methods and materials.
In this section, we look at the significant benefits Vietnam stands to enjoy by pursuing a path of modernization built on New Energy science - as well as the dangers of failing to do so.
Executive summary for "Look Back in Anger" reportSimon Thompson
This is the executive summary for the “Look Back in Anger” global energy forecast. It’s so called because it imagines the reactions of energy industry veterans arriving in 2050 to a net-zero emission world.
Yes, that’s cause for celebration, but why were there so many barriers put in their way? Why did we make it so hard for ourselves?
To get to this moment, instead of looking through the lens of how it has always been, “Look Back in Anger” assumes key tipping points along the way.
It’s a simplified global energy model, from now until 2050 that anyone can use to test their own business assumptions.
The report assumes the effect of official decarbonisation policy in the top 21 countries by energy usage, accounting for about 84% of electricity use.
From there it plots the minimum that will be spent on renewables and builds a picture of the energy world in thirty years’ time.
By definition, this leaves a set of imponderables like:
What is the impact of home-heating and cooling in the age of electrification by 2050?
What happens when solar manufacturers double their capacity and have to sell twice as much, triggering price wars?
What happens when rooftop solar accelerates?
The report is part of the unique “Rethink Energy” research service that offers full access to all previous report plus 12 other new forecasts each year on a variety of topic drawn from batteries, solar, wind, EV recharging, and decarbonising industries like Steel.
More information at
https://rethinkresearch.biz/reports-category/rethink-energy-research/
This document summarizes a technical seminar on biomass power. It discusses increasing global population and energy demand, the role of alternative energies, and implications for the future. Key points include that demand for oil is projected to grow 30-50% in the next two decades; biomass has potential as a viable fuel but major infrastructure changes would be needed; and providing stable, affordable energy for a growing population will require utilizing all available energy sources including fossil fuels, nuclear, and renewables. The conclusions are that all forms of energy production will be needed to meet demand.
The document summarizes a report on how higher oil prices could impact the future of work by 2020. It discusses four key trends - rising oil prices, technology innovation, climate change, and demographic shifts. If oil prices increase significantly, air travel and long supply chains may become costly. Renewable energy and dense cities with public transit would likely grow. Technology would continue to enable remote work and virtual meetings. Climate change could cause severe weather and food/water shortages. The global workforce would be more diverse as Asia and Latin America see population growth while the US and Europe see slower growth and aging populations. The summary outlines possible scenarios for future companies and jobs.
This document provides a summary of key findings from ExxonMobil's report "The Outlook for Energy: A View to 2040". It finds that:
1) Global energy demand is expected to increase 35% by 2040 due to population and economic growth, particularly in developing nations.
2) Electricity generation will be the largest driver of increased energy demand, accounting for over half of growth through 2040.
3) Technology is enabling development of new energy resources like tight oil and gas, significantly expanding supplies to meet changing demand. Oil will remain the top fuel while natural gas and renewables increase their share of the global fuel mix.
A brief introduction and reminder of of the energy market here in the most isolated group of inhabited islands in the entire world - Hawaii - where we have to import ALL of our fossil fuel.
Here are the key points about how the US has converted to the metric system:
- The US is one of the only remaining countries that does not use the metric system as its primary system of measurement. Most other countries adopted the metric system in the late 18th/early 19th century.
- In 1866, Congress passed a Joint Resolution stating that the metric system of measurement should be introduced into the United States "as soon as the same can be done without causing detriment to its business interests." However, no serious action was taken at that time.
- In 1975, the Metric Conversion Act was passed, declaring metric as the preferred system for trade and commerce in the US. It established the US Metric Board to coordinate the
In this keynote speech to the Global Green Leaders Summit I explore the need for a robust conversation on how the growing global population and the rise of the middle class in developing countries will have a huge impact on climate change. It is little discussed in terms of what is happening on the ground from an increase in consumer demand, the connection with energy and, dare i say it, food supply. In the speech i call for a more innovative approach to supporting business and industry to innovate, invest, invent and create
Georgia Southeastern Solar Summit KeynoteBill Nussey
How Georgia Can Help Lead the Global Energy Transformation by Bill Nussey, presented at the 10th anniversary of the Southeastern Solar Summit in October 2018
We examine the role that public officials can play in the New Energy revolution. "New Energy" is not energy from the sun or the wind, and it's also not from fossil fuels or nuclear fission. Instead, it is a new form of energy harnessed from the quantum vacuum of space. It's safe, cheap, and virtually limitless - and it's going to power to our civilization to previously unimaginable heights in this century.
Executive summary for HVAC report "Warming and Cooling - double whammy for th...Simon Thompson
This is the executive summary showing a few pages from Rethink Energy's "Warming and Cooling - double whammy for the grid" which is a forecast and valuation of the global electricity needs for household HVAC markets from now until 2050.
Calculating the power needed to warm and cool the world’s homes has never been harder. Not only does climate change, rising populations, a wealthier middle class need to be factored in, but also the impact of decarbonization on power generation and grid resources.
This report from Rethink Energy starts with a simple question “where will the electricity come from?”
Where HVAC (Heating, Ventilation, Air-Conditioning) is concerned, we are facing two global electrical problems. The first is how to shift homes that rely on fossil fuels to renewable; the second is to maintain and grow economic productivity in the face of soaring temperatures.
Over 58 pages, accompanied with graphs, charts and data in an accompanying spreadsheet, Warming and Cooling - double whammy for the grid:
1) describes and forecasts the size and key trends for HVAC in 21 countries that represent 84% of the world’s power generation;
2) provides a roadmap for grid planning and electricity production, depending on the penetration of electrical HVAC devices;
3) puts genuine figures which show that as more cooling is installed and as home heat gets decarbonized, global utilities will need to lay on more than 1,500 TWh in fresh power resources (that’s collectively about the same amount of electricity that India supplies to its 1 billion citizens).
You may be surprised at where the problems facing the modern grid are likely to come from. For instance, the Italy, South Korea, the UK and Japan will hit hardest, as they to convert from natural gas to renewables.
Further details and full listing of other forecasts:
https://rethinkresearch.biz/reports-category/rethink-energy-research/
The solar energy revolution that began sweep the world a few years ago seems to have stalled, caught up in political games between the industrialised nations and China. However, the future remains bright as the sun is expected to shine again.
Rajendra Shende was invited to write an article on the occasion of OECD Forum of May 2013 about recent ups and downs of the progress and prospects of PV modules and panels in context of its falling prices. Read the article that was published in special issue published at the time of OECD Forum: “Partial Eclipse”
The document discusses the future supply of global energy. It predicts that global energy needs will surge 53% over the next 25 years due to increasing demand from population growth, economic development, and more energy-intensive lifestyles. This will put pressure on finite energy sources like coal, oil, and natural gas. More efficient energy use and investment in renewable sources will be needed to meet rising demand in a sustainable way.
An annual report issued by ExxonMobil predicting the energy scene from now until 2040. In this edition Exxon says fossil energy--oil, natural gas and coal--will continue to produce 80% of the world's energy through 2040.
Global energy demand is expected to rise 25% by 2040, driven primarily by population and economic growth in China, India, and other developing nations. China and India will account for almost half of increased global energy demand as their populations and economies continue to expand rapidly. Developed nations in the OECD will see relatively flat energy demand or declines of around 5% as policies promote efficiency and emissions reductions. Significant increases in global energy use will be required to meet needs of a growing population and expanding global middle class, particularly in developing Asia and other regions.
The document discusses electricity access challenges in developing nations, particularly in rural and remote areas with scattered populations and little economic activity. Extending electric grids to these areas is often the most feasible solution but is limited by high costs. Hybrid energy systems using renewable sources like solar, wind and hydroelectric power will play a key role in meeting future electricity demand in a sustainable way. However, power from intermittent renewable sources requires energy storage systems to balance energy generation with load demand.
Jardino Writing Set Stationery Supplies, StatiKimberly Pulley
The document discusses the key differences between the Anti-Federalists and Federalists during the establishment of the US Constitution. The Federalists supported ratifying the Constitution and believed in a larger heterogeneous republic governed by a strong central government. In contrast, the Anti-Federalists opposed ratifying the Constitution and preferred a small homogeneous republic with states governing themselves with limited central power. Famous Federalists like James Madison, John Jay, and Alexander Hamilton authored the influential Federalist Papers to advocate for ratifying the Constitution.
This document discusses sources of confusion around renewable energy. It argues that politicians promote renewables as providing huge benefits, but their production actually depends on the existing fossil fuel system. Renewables make up a very small percentage of global energy compared to fossil fuels. They are difficult to scale up due to high costs and limited resources. The value of intermittent renewables like wind and solar is difficult to calculate, and they do not fully replace existing fossil fuels. While some renewables can be cost effective, overall they do not meet energy demands in the way needed to replace fossil fuels. Sustainable development is not truly possible in a finite world, and economic growth cannot continue indefinitely.
Ipsos MORI research on public attitudes to the UK’s energy challengesIpsos UK
The British public are now far more concerned by energy security than climate change compared with people around the world. There is recognition we need a diverse mix of energy sources to meet needs, including support for nuclear. However, consumers themselves are still wedded to gas, and have limited awareness of alternative options. Ben Page gave this presentation to Madano Partnership's breakfast briefing on the UK’s evolving energy policy: Opportunties and Challenges on 25 April 2013.
Similar to New Energy Part 4B A New Energy Strategy for Vietnam (20)
Hầu hết các chính trị gia và sĩ quan quân đội cấp cao đều công nhận rằng chúng to không đơn độc trong vũ trụ. Và trong thực tế, từ xưa đến nay, người Trái đất đã gặp gỡ và giao lưu với người ngoài hành tinh trong nhiều tình huống khác nhau. Một kết quả của những giao lưu đó là sự phát triển công nghệ đột phá. Vậy, chúng ta phải đặt câu hỏi: Nếu chúng ta muốn đưa nước Việt Nam vào một kỷ nguyên thịnh vượng, hòa bình, và siêu hiện đại, việc thiết lập quan hệ ngoại giao với người ngoài hành tinh có khả thi?
khả năng của cơ thể để tiêu diệt tế bào ung thư và hồi phục sức khỏe bình thường phụ thuộc vào lượng Năng lượng Điểm 0 trong cơ thể. Bệnh ung thư thường chỉ xuất hiện sau khi lượng Năng lượng Điểm 0 (cũng như điện tích) trong cơ thể đã quá thấp. Vậy, bệnh nhân ung thư phải ăn uống thế nào để tăng lượng Năng lượng Điểm 0 trong cơ thể mình?
Khi chúng ta áp dụng kiến thức của mình về các lực cơ bản trong thiên nhiên (như trọng lực, quán tính...) để tìm hiểu về cơ học thiên thể, chúng ta sẽ đến với một cách hiểu mới về vũ trụ. Trong bản thuyết trình này, chúng tôi xin đề cập đến bốn chủ đề vũ trụ học: 1) Năng lượng Tối, 2) Lý thuyết Trường Thống nhất, 3) Vụ Nổ lớn, và 4) sự dịch chuyển đỏ các thiên hà và ngôi sao xa xôi.
Khoa học Năng lượng Mới cung cấp cho chúng ta một cái nhìn mới về một số lực cơ bản trong Thiên nhiên. Trong bản thuyết trình này, chúng ta sẽ đề cập đến bốn chủ đề chính: 1) Lực hấp dẫn với quán tính, 2) nguyên nhân hiệu ứng "chuyển động vĩnh cửu" của các nguyên tử và thiên hà, 3) Quỹ đạo electron với Trường Điểm 0, và 4) Các giao tiếp plasma.
Khoa học Năng lượng Mới cho phép chúng ta xem xét lại về bốn chủ đề lớn trong lĩnh vực vũ trụ học (cosmology): 1) Năng lượng tối, 2) Lý thuyết Trường Thống Nhất (sự kết hợp điện động lực học lượng tử với Thuyết Tương Đối Rộng của Einstein), 3) lý thuyết của E. Hubble về sự dãn nở của vũ trụ sau Vụ Nổ Lớn, và 4) nguyên nhân sự dịch chuyển đỏ các thiên thể xa xôi.
Tháng 3/2015, GS.Ts Alexander G. Parkhomov (ĐH Lomonosov-Moskva) đã báo cáo kết quả thử nghiệm thiết bị phản ứng Hợp hạch lạnh phiên bản mới của ông trước một hội đồng khoa học ở Moskva. Đây là bản dịch Powerpoint của Parkhomov hôm đó. Trong đợt thử nghiệm này, Parkhomov đã cho vận hành thiết bị hơn 3 ngày với mức COP cuối cùng hơn 2 (tức năng lượng ở đầu ra lớn hơn năng lượng đầu vào gấp 2 lần). Các thí nghiệm của Parkhomov được xem như là minh chứng cho các thí nghiệm trước đây của Rossi, Pons, Fleischmann, et al. trong lĩnh vực Hơp hạch lạnh (phản ứng hạt nhân an toàn).
Từ Thế chiến thứ 2 đến thập kỷ 90, nỗ lực của lực lượng vũ trang các cường quốc trong lĩnh vực lực đẩy phản trọng lực (nói cách bình dân, là "khoa học đĩa bay") đã tập trung vào 2 lĩnh vực khoa học: Điện-trọng-lực học (Electrogravitics) và Điện-động học Năng lượng Mới (Electrokinetics). Nay, Nhóm Năng lượng Mới Việt Nam xin giới thiệu vài nét cơ bản về công nghệ đột phá này - một công nghệ hứa hẹn một thời đại mới trong ngành hàng không dân dụng với những tàu bay không cánh, không cần đường lăn, và bay được với vận tốc hàng chục nghìn km/giờ.
"Học sinh và sinh viên có thể làm gì để đưa Việt Nam vào thời đại Năng lượng Mới?" Đó là một câu hỏi chúng tôi thường được nhận nhiều nhất. Câu trả lời ngắn gọn là - Họ có thể làm được rất nhiều! Trong bài thuyết trình này, chúng tôi xin gợi ý một số hoạt động cụ thể cho học sinh và sinh viên, từ cấp 1 cho đến cấp cao học.
Hiệu ứng Biefeld-Brown cho phép chúng ta thiết kế những tàu bay phản trọng lực không chịu quán tính và vượt tốc độ ánh sáng. Thuyết điện-trọng-lực học lý giải hiệu ứng này. Với công nghệ điện-trọng-lực học, thế hệ sau sẽ thực hiện được các hành trình liên hành tinh trong thời gian ngắn.
Chủ đề thứ 5 trong giáo trình Khoa học Năng lượng Mới của Nhóm Năng lượng Mới Việt Nam là hiệu ứng Casimir, được phát hiện bởi nhà vật lý người Hà Lan, tiến sĩ Hendrik Casimir, cuối những năm 40. Lực Casimir hứa hẹn cho phép chúng ta tạo các "lỗ sâu" để thực hiện thật nhanh những hành trình liên hành tinh.
Theo cách diễn đạt của Wikipedia, “Hằng số Planck được dùng trong các miêu tả về các hạt cơ bản như electron hay photon với tính chất vật lý có các giá trị gián đoạn chứ không liên tục.” Từ hằng số Planck, chúng ta có thể tính được các khối lượng và đơn vị nguyên tử trong bảng tuần hoàn nguyên tố và hiểu cái gì đang xảy ra trong các phản ứng hóa học. Nhưng, theo khoa học Năng lượng Mới, các giá trị Planck không phải là những hằng số. Nếu chúng ta biết cách điều chỉnh các giá trị Planck lên và xuống, chúng ta có thể tạo các thiết bị "vượt hiệu suất" 100%, di chuyển nhanh hơn tốc độ ánh sáng, và chống lão hóa bằng cách khiến cho thời gian trôi qua chậm hơn.
Trong bản thuyết trình này, chúng ta sẽ có 1 cái nhìn tổng quát về các nguyên lý và điều kiện môi trường cơ bản để vận hành 1 hệ thống vượt hiệu suất (COP>1) dựa trên việc trích xuất Năng lượng Điểm Không từ chân không lượng tử.
Một hệ thống có thể sản xuất năng lượng ở đầu ra nhiều hơn năng lượng ở đầu vào? Suốt thế kỷ 20, hầu hết các kỹ sư và nhà vật lý trả lời là KHÔNG THỂ. Nhưng trong thế kỷ 21, rất nhiều nhà sáng chế đã giới thiệu nhiều hệ thống với mức hiệu suất >100%. Trong bản thuyết trình này, chúng tôi cố gắng giải thích tại sao điều này là hoàn toàn khả thi.
"Nước là nhiên liệu của tương lai" - Đây là lời kết luận của rất nhiều chuyên gia phân tích về ngành năng lượng gần đây. Khi được xử lý theo kỹ thuật điện phân thế hệ mới, nhiên liệu nước cho phép chúng ta tiến hành 1 loại phản ứng hạt nhân an toàn và không gây phóng xạ gọi là hợp hạch lạnh hay LENR. Trong phản ứng đó, một lượng lớn Năng lượng Điểm Không được trích xuất từ chân không lượng tử - đủ năng lượng để đẩy piston trong động cơ đốt trong. Sau khi nhà phát minh Stanley Meyer bị ám sát năm 1998 vì ông đã chế tạo thành công hệ thống nhiên liệu nước cho xe hơi, nhiều người đã nỗ lực để sao bản và cải tiến mô hình của Meyer. Trong bản thuyết trình này, Nhóm Năng lượng Mới Việt Nam xin trình bày các nguyên lý căn bản để thiết kế và chế tạo hệ thống nhiên liệu nước cho ô tô, xe máy, hay tàu thuyền. Chúng ta cũng đề cập đến 1 số ứng dụng khác của công nghệ nhiên liệu nước, như máy nước nóng và máy xử lý nước uống.
Rõ ràng, nhiên liệu hóa thạch ngày càng cạn kiệt và điện hạt nhân khá nguy hiểm. Các nguồn "năng lượng thay thế" như điện gió, điện mặt trời, và nhiệt điện cũng chưa đáp ứng nhu cầu hoàn toàn - hay là vì chúng phụ thuộc vào thời tiết, hay giá thành điện quá cao. Theo các nhà khoa học tiên phong của đầu thế kỷ 21, giải pháp năng lượng cho chúng ta chính là NĂNG LƯỢNG MỚI - tức là năng lượng từ cái mà vật lý học gọi là "chân không lượng tử". Nếu cụm từ đó nghe hơi lạ, đây là bản thuyết trình dành cho bạn! Ở đây, Nhóm Năng lượng Mới Việt Nam xin giải thích rõ nguồn năng lượng từ chân không lượng từ - còn được gọi là Năng lượng Điểm Không (ZPE) - là gì, các nỗ lực hiện tại để khai thác nó, và những cách nó sẽ cải tiến cuộc sống của tất cả mọi người trong 50 năm tới. Để hiểu biết thêm về Năng lượng Mới, xin mời bạn đến trang web của chúng tôi: www.nangluongmoisaigon.org.
Dù một số tập đoàn dầu khí đã nỗ lực để đàn áp nó vào thế kỷ 20, nhưng một nguồn năng lượng rất hứa hẹn trong những năm đầu của thế kỷ 21 là Hợp hạch lạnh (Cold Fusion). Đây là loại phản ứng hạt nhân an toàn, tiết kiệm, dễ thực hiện, và tạo năng lượng đầy đủ cho một tương lai tốt đẹp.
Photon, neutron, và proton từ đâu mà ra? Tốc độ ánh sáng có phải thật sự là một hằng số? Đây là những câu hỏi tiến sĩ Paul LaViolette đã cố gắng trả lời với lý thuyết hạ lượng tử động lực học (subquantum kinetics) của mình. Trong lý thuyết này được mô tả các giao tiếp trong thế giới phi vật thể tạo nên vật chất trong thế giới vật thể. Nếu lý thuyết của LaViolette là đúng, các nhà vật lý cần xem xét lại về lý thuyết tương đối rộng của Einstein.
Một đặc điểm các hệ thống Năng lượng Mới là: chúng sản xuất năng lượng ở đầu ra nhiều hơn năng lượng ở đầu vào ("COP>1" theo cách viết các kỹ sư). Dù lúc đầu đây có vẻ là đã vi phạm Định luật bảo toàn năng lượng, nhưng khi chúng ta hiểu rằng Vũ trụ chúng ta đang tồn tại trong một hệ đa-vũ-trụ theo cách hiểu của Everett và Kaku, chúng ta thấy rằng các chiều thêm (phi vật thể và "ẩn" đối với ngũ giác chúng ta) là nguồn của "năng lượng thừa" trong các hệ thống Năng lượng Mới.
Các nhà vật lý cho chúng ta biết rằng "không gian trống" - tức là chân không lượng tử hay Trường Điểm 0 trong từ ngữ chuyên môn - là 1 nguồn năng lượng khổng lồ. Một thời gian dài, các nhà vật lý và kỹ sư cho rằng không thể có cách nào để trích xuất năng lượng này. Trong bài thuyết trình này, chúng ta sẽ thấy rằng họ đã tính sai. Đối với thế giới hiện nay, điều đó hết sức vui mừng vì nó có nghĩa rằng chúng ta sắp có trong tay những công nghệ tiên tiến có thể cung cấp và sử dụng năng lượng với chi phí rất rẻ, không gây ô nhiễm môi trường, và năng lượng không bao giờ thiếu.
Để biết thêm về khoa học Năng lượng Mới và các chủ đề khác liên quan đến năng lượng chân không, xin mời bạn ghé thăm trang web www.nangluongmoisaigon.org.
Theo như khoa học Năng lượng Mới - tức là năng lượng từ chân không lượng tử - Định luật 2 của điện động lực học (entropy) không loại trừ được khả năng một hệ thống hỗn loạn có thể tự gắn kết và tạo thành một trật tự mới. Điều này rất quan trọng đối với các nhà sáng chế muốn quy tụ và tải về năng lượng từ môi trường hỗn loạn tự nhiên của Trường Điểm 0.
ESPP presentation to EU Waste Water Network, 4th June 2024 “EU policies driving nutrient removal and recycling
and the revised UWWTD (Urban Waste Water Treatment Directive)”
Current Ms word generated power point presentation covers major details about the micronuclei test. It's significance and assays to conduct it. It is used to detect the micronuclei formation inside the cells of nearly every multicellular organism. It's formation takes place during chromosomal sepration at metaphase.
PPT on Direct Seeded Rice presented at the three-day 'Training and Validation Workshop on Modules of Climate Smart Agriculture (CSA) Technologies in South Asia' workshop on April 22, 2024.
The use of Nauplii and metanauplii artemia in aquaculture (brine shrimp).pptxMAGOTI ERNEST
Although Artemia has been known to man for centuries, its use as a food for the culture of larval organisms apparently began only in the 1930s, when several investigators found that it made an excellent food for newly hatched fish larvae (Litvinenko et al., 2023). As aquaculture developed in the 1960s and ‘70s, the use of Artemia also became more widespread, due both to its convenience and to its nutritional value for larval organisms (Arenas-Pardo et al., 2024). The fact that Artemia dormant cysts can be stored for long periods in cans, and then used as an off-the-shelf food requiring only 24 h of incubation makes them the most convenient, least labor-intensive, live food available for aquaculture (Sorgeloos & Roubach, 2021). The nutritional value of Artemia, especially for marine organisms, is not constant, but varies both geographically and temporally. During the last decade, however, both the causes of Artemia nutritional variability and methods to improve poorquality Artemia have been identified (Loufi et al., 2024).
Brine shrimp (Artemia spp.) are used in marine aquaculture worldwide. Annually, more than 2,000 metric tons of dry cysts are used for cultivation of fish, crustacean, and shellfish larva. Brine shrimp are important to aquaculture because newly hatched brine shrimp nauplii (larvae) provide a food source for many fish fry (Mozanzadeh et al., 2021). Culture and harvesting of brine shrimp eggs represents another aspect of the aquaculture industry. Nauplii and metanauplii of Artemia, commonly known as brine shrimp, play a crucial role in aquaculture due to their nutritional value and suitability as live feed for many aquatic species, particularly in larval stages (Sorgeloos & Roubach, 2021).
Describing and Interpreting an Immersive Learning Case with the Immersion Cub...Leonel Morgado
Current descriptions of immersive learning cases are often difficult or impossible to compare. This is due to a myriad of different options on what details to include, which aspects are relevant, and on the descriptive approaches employed. Also, these aspects often combine very specific details with more general guidelines or indicate intents and rationales without clarifying their implementation. In this paper we provide a method to describe immersive learning cases that is structured to enable comparisons, yet flexible enough to allow researchers and practitioners to decide which aspects to include. This method leverages a taxonomy that classifies educational aspects at three levels (uses, practices, and strategies) and then utilizes two frameworks, the Immersive Learning Brain and the Immersion Cube, to enable a structured description and interpretation of immersive learning cases. The method is then demonstrated on a published immersive learning case on training for wind turbine maintenance using virtual reality. Applying the method results in a structured artifact, the Immersive Learning Case Sheet, that tags the case with its proximal uses, practices, and strategies, and refines the free text case description to ensure that matching details are included. This contribution is thus a case description method in support of future comparative research of immersive learning cases. We then discuss how the resulting description and interpretation can be leveraged to change immersion learning cases, by enriching them (considering low-effort changes or additions) or innovating (exploring more challenging avenues of transformation). The method holds significant promise to support better-grounded research in immersive learning.
Remote Sensing and Computational, Evolutionary, Supercomputing, and Intellige...University of Maribor
Slides from talk:
Aleš Zamuda: Remote Sensing and Computational, Evolutionary, Supercomputing, and Intelligent Systems.
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Inter-Society Networking Panel GRSS/MTT-S/CIS Panel Session: Promoting Connection and Cooperation
https://www.etran.rs/2024/en/home-english/
The cost of acquiring information by natural selectionCarl Bergstrom
This is a short talk that I gave at the Banff International Research Station workshop on Modeling and Theory in Population Biology. The idea is to try to understand how the burden of natural selection relates to the amount of information that selection puts into the genome.
It's based on the first part of this research paper:
The cost of information acquisition by natural selection
Ryan Seamus McGee, Olivia Kosterlitz, Artem Kaznatcheev, Benjamin Kerr, Carl T. Bergstrom
bioRxiv 2022.07.02.498577; doi: https://doi.org/10.1101/2022.07.02.498577
The binding of cosmological structures by massless topological defectsSérgio Sacani
Assuming spherical symmetry and weak field, it is shown that if one solves the Poisson equation or the Einstein field
equations sourced by a topological defect, i.e. a singularity of a very specific form, the result is a localized gravitational
field capable of driving flat rotation (i.e. Keplerian circular orbits at a constant speed for all radii) of test masses on a thin
spherical shell without any underlying mass. Moreover, a large-scale structure which exploits this solution by assembling
concentrically a number of such topological defects can establish a flat stellar or galactic rotation curve, and can also deflect
light in the same manner as an equipotential (isothermal) sphere. Thus, the need for dark matter or modified gravity theory is
mitigated, at least in part.
The debris of the ‘last major merger’ is dynamically youngSérgio Sacani
The Milky Way’s (MW) inner stellar halo contains an [Fe/H]-rich component with highly eccentric orbits, often referred to as the
‘last major merger.’ Hypotheses for the origin of this component include Gaia-Sausage/Enceladus (GSE), where the progenitor
collided with the MW proto-disc 8–11 Gyr ago, and the Virgo Radial Merger (VRM), where the progenitor collided with the
MW disc within the last 3 Gyr. These two scenarios make different predictions about observable structure in local phase space,
because the morphology of debris depends on how long it has had to phase mix. The recently identified phase-space folds in Gaia
DR3 have positive caustic velocities, making them fundamentally different than the phase-mixed chevrons found in simulations
at late times. Roughly 20 per cent of the stars in the prograde local stellar halo are associated with the observed caustics. Based
on a simple phase-mixing model, the observed number of caustics are consistent with a merger that occurred 1–2 Gyr ago.
We also compare the observed phase-space distribution to FIRE-2 Latte simulations of GSE-like mergers, using a quantitative
measurement of phase mixing (2D causticality). The observed local phase-space distribution best matches the simulated data
1–2 Gyr after collision, and certainly not later than 3 Gyr. This is further evidence that the progenitor of the ‘last major merger’
did not collide with the MW proto-disc at early times, as is thought for the GSE, but instead collided with the MW disc within
the last few Gyr, consistent with the body of work surrounding the VRM.
Unlocking the mysteries of reproduction: Exploring fecundity and gonadosomati...AbdullaAlAsif1
The pygmy halfbeak Dermogenys colletei, is known for its viviparous nature, this presents an intriguing case of relatively low fecundity, raising questions about potential compensatory reproductive strategies employed by this species. Our study delves into the examination of fecundity and the Gonadosomatic Index (GSI) in the Pygmy Halfbeak, D. colletei (Meisner, 2001), an intriguing viviparous fish indigenous to Sarawak, Borneo. We hypothesize that the Pygmy halfbeak, D. colletei, may exhibit unique reproductive adaptations to offset its low fecundity, thus enhancing its survival and fitness. To address this, we conducted a comprehensive study utilizing 28 mature female specimens of D. colletei, carefully measuring fecundity and GSI to shed light on the reproductive adaptations of this species. Our findings reveal that D. colletei indeed exhibits low fecundity, with a mean of 16.76 ± 2.01, and a mean GSI of 12.83 ± 1.27, providing crucial insights into the reproductive mechanisms at play in this species. These results underscore the existence of unique reproductive strategies in D. colletei, enabling its adaptation and persistence in Borneo's diverse aquatic ecosystems, and call for further ecological research to elucidate these mechanisms. This study lends to a better understanding of viviparous fish in Borneo and contributes to the broader field of aquatic ecology, enhancing our knowledge of species adaptations to unique ecological challenges.
The technology uses reclaimed CO₂ as the dyeing medium in a closed loop process. When pressurized, CO₂ becomes supercritical (SC-CO₂). In this state CO₂ has a very high solvent power, allowing the dye to dissolve easily.
Immersive Learning That Works: Research Grounding and Paths ForwardLeonel Morgado
We will metaverse into the essence of immersive learning, into its three dimensions and conceptual models. This approach encompasses elements from teaching methodologies to social involvement, through organizational concerns and technologies. Challenging the perception of learning as knowledge transfer, we introduce a 'Uses, Practices & Strategies' model operationalized by the 'Immersive Learning Brain' and ‘Immersion Cube’ frameworks. This approach offers a comprehensive guide through the intricacies of immersive educational experiences and spotlighting research frontiers, along the immersion dimensions of system, narrative, and agency. Our discourse extends to stakeholders beyond the academic sphere, addressing the interests of technologists, instructional designers, and policymakers. We span various contexts, from formal education to organizational transformation to the new horizon of an AI-pervasive society. This keynote aims to unite the iLRN community in a collaborative journey towards a future where immersive learning research and practice coalesce, paving the way for innovative educational research and practice landscapes.
hematic appreciation test is a psychological assessment tool used to measure an individual's appreciation and understanding of specific themes or topics. This test helps to evaluate an individual's ability to connect different ideas and concepts within a given theme, as well as their overall comprehension and interpretation skills. The results of the test can provide valuable insights into an individual's cognitive abilities, creativity, and critical thinking skills
ESA/ACT Science Coffee: Diego Blas - Gravitational wave detection with orbita...Advanced-Concepts-Team
Presentation in the Science Coffee of the Advanced Concepts Team of the European Space Agency on the 07.06.2024.
Speaker: Diego Blas (IFAE/ICREA)
Title: Gravitational wave detection with orbital motion of Moon and artificial
Abstract:
In this talk I will describe some recent ideas to find gravitational waves from supermassive black holes or of primordial origin by studying their secular effect on the orbital motion of the Moon or satellites that are laser ranged.
ESA/ACT Science Coffee: Diego Blas - Gravitational wave detection with orbita...
New Energy Part 4B A New Energy Strategy for Vietnam
1. New Energy for an Ultra-modern Vietnam
Part 4: Action Plan
Section B: A New Energy Strategy for Vietnam
July 2014
2. To discuss this presentation and pose
any questions you may have, please
visit our website,
www.nangluongmoisaigon.org
3. There are nine aspects to our New
Energy strategy which
we consider most crucial
1) Taking a phased
approach
2) Labor
3) Media
4) Education
5) Legal & Security
6) Foreign relations
7) Business models
8) Teamwork
9) Psycho-spiritual
attitude
4. Why do we need a phased approach to
New Energy?
• Meaning, what are the stages that the New
Energy revolution will have to pass through?
5. We can compare the New Energy
revolution with the Industrial
Revolution in its importance and scope
6. The Industrial Revolution created
many new opportunities for society,
but it also created new problems
26. The people who have withheld New Energy
from us for so long are well aware that this
call for justice will be made
27. And that is one of the things they are
most apprehensive about
28. Why do you think the Bush family has bought
a massive estate in Paraguay that is only
accessible by helicopter?
29. After the issue of historical justice has
been dealt with, there will be a period
of confusion and of measuring what
New Energy can and cannot do
30. Then, based on society’s determination to use
New Energy in certain ways, there will be lots of
innovation and excitement as inventors find new
ways to apply ZPE
31. Finally, by around 2050, the situation
will settle down into a “new normal”
• But our society will never be the same again.
32. The technological innovations New
Energy brings will proceed
in a series of phases:
1) The Breakthrough: Getting used to ZPE
2) Transitional technologies
3) Technologies for the “new normal”
4) Futuristic technologies
33. We are in Phase 1 already
• This is the phase when the world gets its first
New Energy (ZPE) device
35. That is changing soon, however, as the
first university lab tests are in the works
36. Five of the most likely New Energy
devices you are likely to see on the
market include:
• 1) QMoGen self-looped motors such as the
YMNEE technology
37. 2) Welding torches using HHO with
Charged Water Clusters
• Soon thereafter, the same gas will be used for
cooking
38. 3) Water fuel cells
• Regional wars would actually cause this
technology to be introduced faster
44. From now to 2025, we will be
gradually transitioning from Old
Energy to New Energy
45. The first water fuel cells will probably
run on a hybrid format, meaning you
will still need to buy some gasoline
46. Everyone will start enjoying an extra
15 to 30 km per liter in their
motorbikes
47. This will give PetroVietnam and other
oil companies time to adjust their
business model
48. We will start to
desalinate sea
water for
drinking and
cooking instead
of using ground
or surface water
49. We will still use an electrical grid, but
we’ll use it less and less
50. At the same time, we will be replacing fossil fuels
with LENR and other New Energy tech to run our
large power stations which supply the grid
51. This means that from now until 2020, you will
still be using adapters to charge your mobile
devices, but that electricity will be cleaner to
produce than it is today
52. We can also expect that from now until 2020,
the Government and People’s Army will
conduct research on antigravity for national
defense purposes
53. A Vietnamese Space Program will be a
natural offshoot of these military
research efforts
54. By 2025-2030, our technology will
have reached a “new normal”
• No more adapters
• Lots of wireless electricity everywhere (no
more grid)
• Every appliance and device powers itself
• Much less pollution
• No more buying gasoline
• Purified sea water will be our main water
source – drinkable and delicious from the tap
55. Antigravity will start to transform our
society by 2025
• By this time, the People’s Army will be using
antigravity craft to defend the nation’s
territory and territorial waters
• We will start to see civilian applications of
antigravity
– At first, unmanned drones for aerial photography
and delivery
– Then, craft that can carry passengers
56. By 2030, Vietnam Airlines will probably be
offering domestic and international
transportation by antigrav craft
• Even before this, VNA may start powering its
Boeing and Airbus craft with New Energy
technologies
57. If we begin it now, this is also around the time
that Vietnam’s space program will be sending
the next generation of astronauts into space
58. Your children will absolutely have the
career option of becoming an astronaut
59. By 2035, your family will probably
have one or more 4-seat antigrav craft
60. National borders will be less and less
important as super-fast, individualized travel
integrates the world economy
61. By 2040, we will be able to
disassemble the electrical grid
and sell it for scrap
62. We will stop spending money to repair
roads and bridges
63. We will start planting green trees
where the roads are today
64. The world will be much greener with
more efficient agriculture
65. And as exoatmospheric antigrav technology gets
more affordable, more and more people will
have a chance to see our green/blue planet
from outer space
66. Literally, by 2050, families will plan vacations
to the moon just as you might
plan a vacation to Thailand today
67. Your grandchildren will look at pictures of us on
our motorbikes and think how old-fashioned we
were, much as we look at pictures of cowboys
and stagecoaches today
68. How will New Energy affect our
economy?
• Transitional period
• In the “New Normal”
• In the Futuristic period
69. The transitional period will have
advantages and disadvantages
• Most people will benefit quickly from New
Energy
• However, people whose jobs or investments
are in the Old Energy economy will initially
face difficulties
70. For that reason, some individuals and
companies in the Old Energy sector may try
to fight the introduction of New Energy
71. But they won’t be successful, just as the
horse trainers of the 19th century
eventually had to change their jobs
when Ford began producing cars
72. The National Assembly will struggle at first to
keep pace with the New Energy revolution
• Some activities which require government
funding now won’t need it in the future
• Some new needs which don’t exist now will
arise which require government funding
73. By the time of the “New Normal” (2025-
2030), energy production will be much more
local & decentralized than it is today
75. From 2025, we will see people leaving
the cities to go live in the countryside
• When transportation is so easy and fast, it will
be possible to live in Dalat and work in Saigon!
76. The countryside of the future won’t be
boring or backward – it will be a place
of rapid economic development
94. As more of us go into space, we will
start to think of ourselves simply as
“Earth people”
95. We will start to think of ourselves as
working harmoniously with nature
96. This will NOT mean cutting back on our
use of energy or voluntarily limiting
our economic development or
enjoyment of life
97. By 2025, people will laugh at the
silliness of “Earth Hour” and the
flawed thinking it represents
98. But “working harmoniously with nature” will
mean imitating the basic structures of nature
(toruses, galaxies, atoms) to draw from the
quantum vacuum the energy we need to make
our dreams a reality
100. By 2050, people won’t be suffering
most of the day, doing jobs they dislike
or even hate
101. Just to make enough money for food,
housing, medical care and basic education
102. Instead, people will wake up each
morning, think of what they want to
create that day – how they want to
share their talents with the world –
and they will use New Energy to make
those contributions
103. In university culture, this will mean that people
go to school to learn things that help them
understand and enjoy the universe more --
104. University won’t simply be a place to
get enough knowledge to find a job in
the labor force
105. In general, it will be a much more
optimistic world that is unencumbered
by the capitalistic parasites which
plague our society today
106. Now that we have a basic
understanding of the stages the New
Energy revolution will pass through,
let’s talk about labor specifically
107. Labor concerns are going to be some
of the first objections raised regarding
New Energy
108. Today, we have hundreds of thousands
of workers in Vietnam whose jobs are
related to Old Energy
109. These are the people who work at the
big power stations
115. We need to introduce New Energy in a
way that doesn’t overly inconvenience
these workers
Instead, we need to find ways
to make them early beneficiaries
of New Energy
116. The Government should start planning
retraining programs now in order to
begin implementation around 2016
117. NGOs and thinktanks can also play a part in
giving Old Energy workers the knowledge and
resources they need to prepare for jobs
in New Energy businesses
118. Old Energy workers will need to take a
forward-thinking attitude to the issue
and assume responsibility for their
own retraining
120. These are some of the jobs that New
Energy will generate
• Assembling ZPE electrical generators
• Installing ZPE-enhanced irrigation systems
• Installing ZPE-based wastewater treatment
systems
• Working in LENR (cold fusion) facilities
• Antigravity engineers, fabrication specialists…
and eventually, test pilots
• Re-fitting and updating production facilities
121. And those are the jobs that Old Energy
workers can be prepared for
122. Labor Unions should take a leading role in
preparing workers for the big transformation
123. The Youth League can also help the
transformation by encouraging students to learn
subjects that will prepare them for New Energy
jobs, rather than learning useless technical skills
for the Old Energy economy
124. Labor issues will be handled more
easily if Old Energy companies begin
now to re-orient their business models
toward New Energy activities
125. That means EVN,
for example,
could begin
investing in ZPE-
based electrical
home generators
127. And PetroVietnam could specialize in
mining mica, neodymium, and other
natural resources necessary for New
Energy technology
128. Business consultants and thinktanks
like VNEG can assist Old Energy
companies in drawing up plans for
transition to New Energy
129. Throughout the process of re-orienting the labor
force, people will need to keep in mind that
basic benefit that New Energy will make the
entire society wealthier and happier
130. Let’s look briefly at how the media can
help bring about the New Energy
revolution in an easy and comfortable way
131. In Western
countries, the
media has been
coerced by
reactionary Old
Energy companies
to limit public
understanding of
New Energy
132. If the Western media had done its job
properly, we would have had operational
New Energy tech in the 1990s
Eugene Mallove
was one science
journalist who
tried… and
sacrificed his life
that we might
continue the
struggle
133. While Vietnam’s media is fortunately
more objective and independent,
Vietnamese journalists need to be
aware that it isn’t possible to simply
read and translate news from the
Western mainstream media in order to
give Vietnamese readers the
information they need
134. The “New Media” in the West, which is led
by independent journalists and certain web
sites, has been doing a much better job of
covering New Energy issues in Vietnam
135. In English, there are some good resources
for New Energy news such as:
• Infinite Energy Magazine (www.infinite-
energy.com)
• www.pesn.com
• www.peswiki.com
• www.freeenergynews.com
• www.globalbem.com/news-hub/
136. In Vietnamese, we have:
• www.zeronews.us
• www.nangluongmoisaigon.org
and hopefully many more New Energy web sites
coming soon!
137. University journalism programs need
to include information on how to
cover New Energy for students wishing
to become science journalists
138. If the media can do its job properly by
covering New Energy developments
adequately, fairly, and objectively –
and resist the attempts of reactionary
Old Energy forces to keep the people
ignorant – the New Energy revolution
will be unstoppable
139. Once New Energy receives the public
attention it deserves, the needs and
demands of students are sure to
change accordingly
140. From Kindergarten all the way to
doctoral programs in science and
engineering, there is a need to put
New Energy in the school curriculum
141. Adding this material will require the revision
of much of the current science curriculum
142. The History curriculum will also need
revising, to explain the development and
suppression of New Energy in the
twentieth century
143. As a society, we need to
recognize now that New Energy
will shape the jobs of tomorrow
144. Therefore, it’s very important that we not
teach outdated curricula that only prepare
students for jobs in the Old Energy economy
145. Many of these jobs simply won’t exist
in society by 2030
146. Vietnam’s universities have special functions to
fulfill in introducing New Energy to the country
• The universities must supply the knowledge
that will be used to write the new K-12
curricula and textbooks
147. A tremendous amount of New Energy science is
already available in English, Russian, and French,
but it needs to be translated into Vietnamese by
scientific committees at our universities
148. In Vietnam today, too many universities are
offering programs in business, marketing,
finance, and banking
149. And there simply aren’t enough jobs in
those fields for so many graduates
150. Universities wishing to cut back their
business/finance offerings and diversify into
other academic disciplines ought to consider
programs in New Energy studies
151. A concerted effort to educate the entire
populace about New Energy would be one of
the most effective ways to fight the kind of
foreign imperialism that Vietnam faces today
152. In order for these educational reforms to take
place, the support of the Government generally,
and the National Assembly specifically, is essential
153. In addition to directing the Ministry of
Education and Training to add a New
Energy studies component to the
school curriculum at all levels, the
National Assembly will need to update
Vietnam’s legal codes to keep pace
with New Energy technologies
154. Some legal issues stemming from New
Energy:
• Intellectual property claims
• User license agreements
• Funding agreements between investors and
inventors
• Product safety
• Decommissioning and sale of Old Energy
facilities
• Destructive or harmful uses of New Energy
155. Security for New Energy innovation will
be a major responsibility of lawmakers
and law enforcement officers
156. The history of New Energy from the
1960s to recent times has shown that
reactionary individuals and institutions
will sometimes use violence and
financial pressure to ensure that New
Energy applications are not introduced
to the public
160. However, in cases of break-ins or
thefts, the Police need to intervene
quickly to catch the offenders
161. In the case of expensive, large-scale
New Energy research, such as
development of military antigravity for
national defense,
162. Vietnam will need secure underground
facilities that are immune to attack
from the air and limit access from
ground level
163. We’ve already seen in
Củ Chi and Vĩnh Mốc
that Vietnam is very
good at building
structures
underground, so now
let’s do it again, but
bigger and better!
164. Some of the biggest threats to New
Energy project security are likely to
come from abroad
166. One of the most important principles
to keep in mind when thinking about
the international political dimension of
New Energy is that this is not a fight
between Old Energy countries and
New Energy countries
167. Instead, this is a battle between the
99.999% of humanity that will
immediately benefit from New Energy
168. And the 0.0001%
of humanity that
are so heavily
invested in fossil
fuels and Old
Energy
infrastructure,
that their
financial empires
will be threatened
169. We must keep in mind that in America, Britain,
Japan, and other countries where New Energy
suppression has been most brutal, the broad
masses of the people support the introduction
of New Energy
170. Vietnam can use these allies abroad,
even in the countries whose leaders
are still in the pockets
of the Old Energy oligarchs
171. As we just mentioned, many Vietnamese
students have been trained in business
administration and finance since the 1990s
173. New Energy can help provide a
solution to their problems!
• New Energy is offering a vast array of business
opportunities for budding entrepreneurs
174. However, business grads need to be
mindful that New Energy is about
more than just technology.
It carries with it a new ethos about
innovation and about how business
and finance should be conducted too.
175. This is largely
because the
traditional business
model (the one we
learn in school)
made it easy for the
reactionary Old
Energy forces to
suppress New Energy
in the twentieth
century
176. New Energy inventors have now realized that
they must combine new thinking about
business with their scientific knowledge to be
successful in getting their inventions into the
hands of consumers
177. And therefore, many of the things that have
been taught in university business
administration programs from the 1990s until
now will not be entirely applicable to New
Energy business ventures.
178. With that in mind, let’s look at some of
the New Energy business models that are
gaining popularity around the world
1) Give it away
2) Give it away with philanthropic
compensation
3) Open source with sales & licensing
4) Patents (in your country / abroad / partial)
5) Humanitarian business plans
6) Venture capital (conscious & traditional)
179. “Give it Away” model
• This might suit you if you are generous by
nature and you are financially comfortable
already
180. You will not be paid directly for your work, but
you will receive much recognition from the
community and have many new opportunities
opened to you (some of which may bring
financial remuneration)
181. “Give it Away with Philanthropic
Compensation” model
• An increasing number of humanitarian
(philanthropic) groups are choosing to fund
New Energy research
• Examples
– Sirius Disclosure is offering a $100,000 grant to
New Energy inventors
– The Patricia Galloway and Kris Nielsen Foundation
gave a grant to Solar Hydrogen Trends Inc. to
create the Symphony 7
182.
183. How does Philanthropic
Compensation work?
• During the R&D process, the philanthropic
organization and the inventor(s) have a discussion
• They determine the amount of money (“profit”)
that would make the inventor(s) feel duly
compensated for their efforts in creating the New
Energy application
• If and when it is successfully introduced to
market and generates an agreed level of earnings,
the foundation pays the inventor(s)
184. Philanthropic Compensation
• A disadvantage of this approach is that the
inventors have to finance their R&D process
up-front
• If their device doesn’t work, they will never
get paid
• On the other hand, this condition gives them a
great incentive to be successful
• Universities are in a good position to use this
business model
185. Open Source with Sales/Licensing
• This model follows the popular software
model
• Offer a New Energy device for free for 1 to 3
months, then charge customers a fee to
continue using it
• Some devices may have a cheap or free “base
model” but then be upgradeable to a higher-
priced “deluxe version”
186. Open Source with Sales/Licensing
• A New Energy company may develop a new
application as part of a government contract
• Under the terms of the contract, the IP on the
invention may be released for free to the
public
• The New Energy company would still be
compensated by the government, which paid
for the invention using citizens’ tax proceeds
187. Patents
• The wisdom of seeking patent protection may
depend on which country you are working in
• In the United States, it’s often been unwise to
seek a patent on a New Energy device,
because the U.S. Government abused the law
and stole these inventions once they were
demonstrated at the U.S. Patent Office
• More than 5000 New Energy patents in the
U.S. have been suppressed this way
190. If you are thinking about seeking
foreign patents for your New Energy
inventions, be sure to consult carefully
with a lawyer in that country
191. Many New Energy inventors say that
based on their experience, it’s best to
not seek patent protection
• It encourages secrecy, which invites criminal
activity
• It wastes time and money
• It delays and limits public knowledge of your
invention – this means the public cannot
support you fully
192. Humanitarian business plans
• These are some of the most popular business
models in New Energy today
• In this model, a group of investors decides
what level of return they would like to receive
from funding a New Energy invention
193. Humanitarian business plans
• For example: They want a base return of 30%
on the amount invested
• They fund the inventor(s) up-front
• When the invention reaches the market and
sales begin, the investors recoup 130% of the
amount invested
194. Humanitarian business plans
• After this point, they continue to receive
further returns, but on a diminishing scale
• Part of the “excess profits” are paid to the
inventor(s) at a pre-agreed amount
195. Humanitarian business plans
• The rest of the “excess profits” are used to
fund other inventions and/or inventors
• They can be used to fund scholarships for
students who study about New Energy
196. Conscious Venture Capital
• See
www.causecapitalism.com
• This is a list of socially-
conscious venture capital
firms
197.
198. Socially-conscious venture capital firms only
invest in projects and technologies that meet
certain environmental and social justice goals
199. There really is a lot of money out there
to fund New Energy inventions if you
know where to look for it!
200. Finally, you may wish to consider
accepting “traditional” venture capital
• Traditional venture capital firms are groups of
investors seeking the highest possible return
on their money
202. Even if it is a business activity that is
bad for the environment or society
• Cigarettes
• Social evils
(casinos, brothels,
etc.)
• Fossil fuels
• Chemical factories
that don’t follow
environmental
regulations
203. You can work with these firms,
but beware!
• They probably don’t share your values or your
enthusiasm for New Energy
• They might make your life rather difficult as an
inventor
• You might work very hard for them, but
receive very little compensation in the end
204. OK, so you’ve been working
on your New Energy device
for 2 years and now you’re ready to
introduce it to the public.
How to market your device?
205. In New Energy marketing, be creative!
• Collaborate with other New Energy inventors
and market your products together
206. Invite famous entertainers
to promote your device
• Your proposal to them can be conditional –
• You might say to Đàm Vĩnh Hưng, “If I can
make a water fuel cell that works, will you
hold it up and introduce it to the audience at
your live shows this year?”
207. Market on social media
• Make short video clips about your New Energy
technology
• Enlist the help of film students at local
universities
• Their school project supports your invention
208. Post updates about your technology
on international websites
• Keep PESN editor Sterling Allen informed
about your progress
• Pure Energy Network Systems may post an
article about you at www.pesn.com
209. Talking about the various ways to market
and promote your New Energy inventions
leads me to our ninth element of a strategy
to introduce New Energy.
210. This is: Teamwork
• One of the biggest mistakes in New Energy
research in the 1980s-1990s was that isolated
groups of engineers and inventors were
working alone or in small groups.
211. Due to fear, greed, or shyness, they
didn’t surround themselves with a
support team
212. VNEG has identified the following
individuals whose collaboration is
important to bringing out New Energy
• Engineers
• Physicists &
chemists
• Businessmen
• Project managers
• Finance specialists
• Accountants
• Historians of science
• Journalists
• Teachers
• Investors
• Government leaders
• Security guards
• Meditation teachers
• Artists & poets
• Singers & Musicians
213. Engineers can design & help build New
Energy systems
• Many types of
engineers can work in
New Energy
– Mechanical engineers
– Civil engineers
– Agricultural engineers
– Hydraulic engineers
– Electrical engineers
– Chemical engineers
– Computer science
engineers
214. Physicists are in high demand
• As we’ve seen, New Energy is built on new
understandings of cosmology and quantum
mechanics
• These are areas where physicists have strong
knowledge and skills
215. Chemists are important too
• We’ve seen how many New Energy systems,
such as LENR, use chemical reactions to
stimulate nuclear reactions that produce
excess energy
216. Understanding the chemical properties of
hydrogen, helium, palladium, and lots of
other elements are critical to many types
of New Energy systems
217. Businessmen have a big role
• Vietnam has trained tens of thousands of
students in business administration
• These students are good at organizing,
managing big groups of people, and keeping a
New Energy project running economically
218. Project managers keep things
running on schedule and help
create necessary collaborations
219. Finance specialists have the job of
getting a New Energy project team the
money it needs on favorable terms
• We’ve already seen that there are lots of ways
to raise money for New Energy research
• These go way beyond simply asking your
relatives for money and borrowing from banks
• Be creative and don’t think about finance in
20th-century terms!
220. Accountants are needed to prevent
waste of financial resources
• The more transparently and carefully your
team can report on its financial situation, the
more comfortable investors will be with
supporting you
222. Due to the politicization of history
classes in school, with heavy emphasis
on memorizing lots of dates and
events, most students don’t enjoy
history very much
223. However, if we understand that an
honest study of history can actually
depoliticize the subject, then we see
how historical studies actually
highlight the role that New Energy has
played in human affairs and
international relations in the past
224. Historians are showing us that one way
to make the world more equal and more
peaceful is to introduce New Energy and
throw off the veil of secrecy that has
surrounded this subject
225. Historians also have a practical role to play in
New Energy research, because they are the
people who catalog the achievements of New
Energy scientists who came before us
226. Some of them, like Nikolas Tesla and
Stanley Meyer, are famous
227. Other inventors are equally as
important, but their reputations are
more obscure
228. By remembering the work of these
scientists, we can quickly integrate
their knowledge without wasting time
to re-discover the same science
229. Journalists play a critical role in
introducing New Energy
• In the past, the oil cartels have terrorized and
paid off journalists to keep New Energy away
from public notice
• But now, New Energy journalists like Steven Krivit
and Sterling Allen are providing humanity an
invaluable service with their objective, balanced
coverage of the field
• If you are in a New Energy research team,
cultivate friendships with sympathetic journalists
230. Teachers have an important role to
play now and in the future
• The children of today are the engineers,
mayors, and businessmen of tomorrow
231. Teachers can help us create an entire
generation of citizens who have a basic
understanding of New Energy science
232. Some percentage of those students
will go on to be New Energy scientists
233. Teachers can visit the VNEG web site
to download curricula and classroom
activities relating to New Energy
www.nangluongmoisaigon.org
234. Investors
• New Energy is giving investors avenues of
investment which are good for the
environment, and much more
237. And that makes New Energy
investment an important way to show
love of one’s country and one’s planet
238. New Energy needs the support of
government leaders to allocate budget
resources, personnel, and facilities for the
development of New Energy applications
239. Government leaders can also help
facilitate international collaborations
in New Energy and enlist security
forces in disrupting the attempts of
reactionary Old Energy forces to stall
New Energy research
240. When we inquire deeply in to the lives
of Tesla, Einstein, and other famous
scientists, we see a common theme:
241. That a scientifically innovative mind
comes from a scientist who is deeply
centered and spiritually contemplative
250. And we suspect it will be a song of
hope and excitement about what the
future holds for us
251. Let it also be a song that inspires and
encourages students and scientists to
re-invigorate their pursuit of New
Energy applications
252. The ninth and last plank in our plan to
roll out New Energy is the psycho-
spiritual attitude that New Energy
research requires
253. Training New Energy scientists and
other project team members in the
psychology and spirituality of New
Energy is something that meditation
and yoga teachers, monk, priests, and
nuns can all help with
254. We’ve found that there are at least
three psycho-spiritual dimensions to
successful scientific innovation:
1) Courage
2) Cooperation
3) Regular spiritual
practice
255. One thing Vietnam has a lot of, both
historically and now, is COURAGE
• Courage is why Vietnam is still an independent
country today
256. Marxism-Leninism taught us to not
only be courageous as a nation, but as
a working class of manual laborers and
intellectual laborers
257. In the case of New Energy, courage means
refusing to give in to the petro-fascists
• Even when they terrorize us and pressure us in
many ways, we must remain steadfast with
love and hope in our hearts for the future we
know that New Energy can bring
258. Courage means refusing to let Vietnam
become simply a source of cheap labor
for international capital
259. It means daring to rise higher and come to parity
with the superpowers in terms of living standards
and technology, without fearing retribution
260. Courage also impels us to get started with our
New Energy research and development even
before we’ve attracted much capital
261. Even if you haven’t got a lot of funding,
demonstrate a New Energy principle on a small
scale, and you will inevitably attract the capital
you need to take your application to the next step
262. The second element is COOPERATION
• In the past, many New Energy inventors kept
their work a secret because
– They feared competition
– They feared the petro-fascists
– They were eccentric
264. New Energy must look to the public as
a source of support
• After all, no one wants to pay high prices for
electricity and fuel for transportation
265. Cooperation needs to extend to other
inventors, both inside Vietnam and abroad
• Developing New Energy is like solving a puzzle
– each inventor has certain pieces, but can’t
solve the entire puzzle himself
266. The environmental community will want to
cooperate with New Energy inventors
• Up until now, they’ve been tricked into
supporting things like solar/wind energy and
“Earth Hour” just because they lacked
information
267. As New Energy inventors, you can give
them a better solution!
268. The healthcare community is in a
similar position
• Lots of good-hearted people regularly give
their time and money to support causes such
as cancer research
269. But because of lack of information
and understanding, they give their support to
Old Energy / Old Paradigm groups
like the Terry Fox Run
270. Those Old Paradigm
groups simply
funnel money to
university labs
which are paid to
treat symptoms but
not cure the
disease
271. That’s why the Terry Fox people haven’t
cured cancer in over 30 years of work
272. However, New Energy holds many of
the solutions that healthcare activists
are seeking
• Nanotechnology
• DNA repair
• Cell rejuvenation
274. Use youth organizations
to support your work
• Demonstrate your technology to youth and
children’s groups
• Visit local schools to demonstrate your work
• Inspire the scientists of tomorrow!
275. The third key psycho-spiritual element
is daily spiritual practice
276. When we study the lives of famous
scientists like Newton and Tesla, we
see a lot of similarities
277. Taking 30 minutes to an hour each day to quiet
the mind and sit in stillness allows you to
mentally “hear” the good ideas the Universe is
trying to share with you
278. This does not have to be a religious
practice (unless you want it to be)
279. You also don’t have to contort your
body into various acrobatic poses,
unless you are comfortable doing so
280. Sitting on a sofa or lying down in bed
work just fine
285. There is an easy, safe, and cheap way
to reduce your brain wave frequency
to the 5-12 Hz range
286. “Binaural beats” are the solution
• These are sounds you listen to with
headphones
287. Just search Youtube for “Binaural Beats
creativity”
• https://www.youtube.com/watch?v=SAyA7rfy
F38
• https://www.youtube.com/watch?v=T89sKP-
xwww
• https://www.youtube.com/watch?v=PJUtKHq
Rjag
288. You can listen to binaural beats when
you are reading, writing, sitting on the
bus, or just relaxing
289. In fact, Dr. Siegried Othmer found that brain
wave entrainment with binaural beats
increased the learner’s IQ by 23 percent
290. When you are in a state of deep relaxation,
think of the Universe like Google
• Ask the Universe a question and request an
answer
• One way or another, you will be answered!
292. It might come in a conversation or a
chance meeting
293. It might be an idea that suddenly pops
into your head
294. David Wilcock has shown that humans
have a natural telepathic ability
295. When you are working on a problem in
deep concentration, an aspect of your
mind naturally seeks out other minds
that are working on the same problem
296. You start to subconsciously communicate
with other people in the world who are
working on that problem
297. If your mind is still and settled enough,
it can perceive the subtle thoughts and
suggestions it is receiving from those
telepathic collaborators
299. Einstein famously used his dreams as
an environment for problem-solving
• Many scientists think that when you dream,
you are accessing energies and minds that
exist in hyperdimensional (non-physical)
dimensions of space
300. Before you go to bed, put a notebook
and pen next to your bed
301. When you lie down, close your eyes
and say silently to yourself:
“Now, I will go to sleep.
In my dream, I will see the answer to this
problem:
(state the scientific problem you want help with)
When I wake up, I will remember the solution I
have seen in great detail. I will write down the
solution to the problem”
Often, when you wake up, you will know the
solution you were looking for!
302. Binaural beats can help in this process
• Before you go to sleep, listen to binaural beats
in the Delta range (0.5 to 4 Hz)
303. Your dreams will serve as an even better
environment for problem-solving if you sleep
on a North-South axis
304. This is because the energy field that
surrounds you has the same shape as
the Earth’s energy field (a torus)
305. If you get these energy fields in
alignment, they will support each
other and the Earth will amplify your
body’s own natural energy
306. Now you will be ready for accelerated
learning and multi-dimensional thinking
307. So, we’ve just seen 3 key elements to a New
Energy activist’s pscho-spiritual perspective.
• They are:
– Courage
– Cooperation
– Daily spiritual practice
• May they become fundamental aspects of
your life!
308. Would you like to take a break now?
When we return, we’ll be talking about
what you can do to help bring about
the New Energy revolution for an
ultra-modern Vietnam.