Anti-gravity, astro-physics, Chemistry, Dark Matter, energy, Futurism, GUT-CP, hydrino, HydrinoEconomy, Randell Mills, technology

Brilliant Light Power, Plasma Sphere, solving two electrons, peer reviews, the END of Quantum Mechanics, pseudo-electrons, future of aviation and space travel… the Fourth Industrial Revolution has arrived!

“We are in the early stages of a fourth industrial revolution that will further blur the lines between the physical, the digital and biological realms… era of the fourth industrial revolution calls for a fourth-generation espionage”.  – Alex Younger, MI6 Chief

“Early stages for some dickhead” – Danny Hurley

Transparent Inverted-Pedestal-Electrode reactor to test injection and hydrino plasma parameters.

First trial of photovoltaic (PV) window and cells of the taper-slant reactor for direct conversion of hydrino plasma power to electricity. The flat panel was placed horizontally over the PV window at the top of the reactor, and a diode light powered by the PV panel was at the base of the reactor. In order to melt gallium, the injected molten metal, the temperature of the reactor was raised to just above room temperature using a ceramic heating tape. Following ignition, the reactor heated the stainless steel (SS) vessel to the SS failure point in about 6 seconds wherein the intense heat caused the ceramic tape to fume.

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“Make sure the grenade is plugged snugly up their fucking arses Mills”
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Posted byu/Amack43
5 days ago
Video of Blue Jets
If Mills is right these blue jets represent the creation within thunderstorms (from lightning) of pseudoelectrons which manifest as a current of electrons accelerated vertically upwards away from gravity, emitting a blue light.

Why should you care? Because if Mills is correct, these blue columns of light represent the future of aviation and space travel in which we do away with the logarithmic dependence on the ejection of mass, to an ability to lift mass in a gravitational field with an efficiency close to unity, with a massively enhanced safety profile for all aerospace craft arising from splitting energy generation between multiple Suncells that power a multitide of Mills’ F^2 devices. No more exploding rockets. No more wings. No more single points of failure that could bring down a plane or rocket.

The video raises even more interesting ideas if the underlying theory is correct. Obviously generation of pseudoelectrons is simple inside lightning strikes. The single point of origin for the beams would suggest that the lightning stroke plasma sheath is the point of creation. Is it dependent on gamma rays generated by the lightning strike? How does the lightning strike automatically generate free electrons in the ground state for conversion to pseudoelectrons?

Does the lightning plasma sheath somehow generate copious H3+ ions, which are predicted by Mills to be an efficient generator of pseudoelectrons during inelastic collisions with electrons with energy greater than 7 MeV? Or maybe hydrino generation, which itself may be an intrinsic part of the lightning return stroke, play a role?

Whatever the case, we could be within, and hopefully much less, 10 years of a transformation of space travel and an ensuing space race that will see the colonization of the solar system and eventually leap out to the nearest stars. And it won’t be confined to the major powers. Any country could create a pseudoelectron based space program providing they license Suncells and pseudoelectron technology from Mills and BrLP.

 

Anti-gravity, Astro-biology, astro-physics, Chemistry, cosmology, Dark Matter, DNA, Futurism, Genetics, GUT-CP, hydrides, hydrino, HydrinoDollars, HydrinoEconomy, Molecular modelling, New elements, particle physics, Philosophy, physics, technology

Israel is going to Moon!… Israeli STEM education (Science, Engineering, Technology & Mathematics)… for kindergarteners!

“Never know… … the first man to step foot on the Moon might just be Jewish!” ;D

“The important thing is not to stop questioning. Curiosity has its own reason for existing. One cannot help but be in awe, contemplating the mysteries of eternity, of life, of the marvellous structure of reality. It is enough if one tries merely to understand a little of this mystery every day.” – Albert Einstein

IsraelOnTheMoon1

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“STEM? What in the UK?… most kindergarten and nursery teachers in the UK are fucking illiterate mate!… … most UK high school teachers are suicidal”

“Some of you can see where I’m going with this can’t you!” 😀

Science Minister:

‘National pride’ in Israel’s first lunar landing mission

Akunis visits plant building 1st Israeli spacecraft to moon; ‘I’ve no doubt joy of all Israeli citizens will be felt when ship lifts off.’

Science Minister Ophir Akunis, Science Ministry Director-General Ran Bar, and Israel Aerospace Agency Director Avi Blassberger visited the plant where the first Israeli spacecraft to reach the moon is being built.

The project has so far been funded primarily by donations from private individuals, led by philanthropist Maurice Kahn and Dr. Miri and Sheldon Adelson.

Recently, however, the Science Ministry announced government support for the SpaceIL project in the amount of up to NIS 7.5 million.

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Science Minister Ophir Akunis, Science Ministry Director-General Ran Bar, and Israel Aerospace Agency Director Avi Blassberger visited the plant where the first Israeli spacecraft to reach the moon is being built.

The project has so far been funded primarily by donations from private individuals, led by philanthropist Maurice Kahn and Dr. Miri and Sheldon Adelson.

Recently, however, the Science Ministry announced government support for the SpaceIL project in the amount of up to NIS 7.5 million.

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Here’s (almost) everything you need to know about Israel’s Moon lander

An Israeli spacecraft is gearing up for a 2019 Moon mission that features unique partnerships, investigation of the Moon’s origin, and closure for an 11-year-old contest designed to spur commercial lunar activities.

SpaceIL, a privately funded Israeli non-profit, designed and built a four-legged lander that will touch down in Mare Serenitatis, one of the dark, lunar basins visible to the naked eye from Earth. The craft, which weighs less than 200 kilograms without fuel, will send home high-definition pictures and video before hopping to a new landing spot half a kilometer away. If successful, the mission will make Israel the fourth country to soft-land on the Moon, following Russia, the United States, and China.

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The overall purpose of the mission, SpaceIL says, is to inspire more Israelis to pursue STEM careers. Three engineers formed the non-profit in 2011 to compete for the Google Lunar X-Prize, a $30 million contest encouraging privately funded groups to land on the Moon. The first team to land, travel 500 meters and transmit imagery would have earned $20 million. A second-place team would have earned $5 million, and another $5 million was up for grabs through stretch goals like visiting an old Apollo site and contributing to STEM diversity.

Google withdrew the cash prizes in April 2018 when no group was able to meet the contest deadline, which had already been extended from 2017. A few teams, including SpaceIL, pushed on, and despite a brush with bankruptcy at the end of 2017, SpaceIL announced they would be ready to fly at the end of 2018. The launch has since been delayed until the “beginning of 2019,” SpaceIL representatives said in response to emailed questions.

The lander, which is in the process of being named through an online contest, will leave Earth aboard a SpaceX Falcon 9 rocket from Florida. SpaceIL is one of at least three customers with spacecraft aboard the flight. The primary payload is an Indonesian telecommunications satellite called PSN-6, built by sat-building company SSL. Another undisclosed rider rumored to be a U.S. government satellite.

Rideshare missions are common, but this one is unique because one spacecraft is headed to the Moon while two others will trek to geosynchronous orbit, a region almost 36,000 kilometers above Earth. There, satellites have one-day orbits to match Earth’s rotation, enabling them to linger over the same ground spot.

All three spacecraft will detach from the Falcon 9 into a geosynchronous transfer orbit with a high point, or apogee, of 60,000 kilometers. The SpaceIL lander will orbit Earth three times, raising its orbit until being captured by the Moon’s gravity. The process will take more than two months, and at the Moon, the lander will make two orbits before landing.

In another mission twist, Spaceflight, the company that arranged the rideshare aspect of the Falcon 9 launch, says the undisclosed satellite will remain attached to PSN-6 while both satellites head to geosynchronous orbit. Ryan Olcott, a Spaceflight mission manager, called this arrangement “groundbreaking.”

“We’re really thrilled to develop this relationship with SSL,” Olcott said. “It is a great enabler for a broad category of rideshares that would be much harder or impossible to perform with a single ring below a primary spacecraft.” The company is already offering geosynchronous ridealongs as a dedicated service for future launches.

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SpaceIL lander site
NASA / Goddard / Lunar Reconnaissance Orbiter / Jason Davis / The Planetary Society

SpaceIL lander site
SpaceIL’s lander will touch down in Mare Serenitatis, the “Sea of Serenity,” shown as the larger circle. The specific landing site is in the inner circle.

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Another big partner joined the mission in October: NASA announced it would provide SpaceIL with observations from a Moon-orbiting spacecraft, a laser retroreflector for the lander, and communications support during the mission. The partnership was made under the agency’s new Lunar Discovery and Exploration Program, or LDEP, which is part of the Trump administration’s plans to return humans to the surface of the Moon.

As the SpaceIL lander descends to Mare Serenitatis, its engine will stir up the lunar soil, and NASA’s Lunar Reconnaissance Orbiter, or LRO, will use its science instruments to look for mercury and hydrogen in the dust plume. LRO has been surveying the Moon from lunar orbit since 2009.

But don’t expect any dramatic pictures of the spacecraft landing like the ones NASA’s Mars Reconnaissance Orbiter has captured over the years. Stephen Cole, a NASA official at the agency’s office of communications in Washington, D.C., said it’s “very unlikely” LRO will take visible light images of the landing. LRO will, however, take images afterwards to see how the lander’s descent exhaust altered the landing site.

NASA’s Goddard Space Flight Center is giving SpaceIL a laser retroreflector array, or LRA, to install on the spacecraft — essentially an array of mirrors that reflect lasers in order to measure distance (LightSail 2 and other Earth-orbiting spacecraft carry similar arrays). There are no immediate plans to use the retroreflector; LRO has a laser altimeter, but the team actually avoids aiming it at retroreflectors left behind by the Apollo astronauts because the return signal could damage the spacecraft. Earth-bound laser stations use the Apollo retroreflectors to measure the distance to the Moon, but the SpaceIL equivalent will be too small for that.

Instead, NASA is providing the retroreflector with the future in mind. Over time, a network of similar reflectors could be built and used for navigation by spacecraft in orbit.

“Each lander that carries an LRA, we can build up a navigational system on the Moon, providing more information to orbiting satellites and future landers, both robotic and human,” said Cole.

NASA is also giving SpaceIL time on the agency’s Deep Space Network, which communicates with beyond-Earth missions via satellite dishes in California, Spain, and Australia. In return, NASA will get a copy of all the data collected by the mission’s single science instrument: a magnetometer to measure “magnetic anomalies” in Mare Serenitatis. The Soviet Union’s Luna 21 mission, which landed in the same region in 1973 and deployed the Lunakhod 2 rover, detected magnetism there.

Photo by: Eliran Avital
SpaceIL lander
SpaceIL

SpaceIL lander
The SpaceIL lander in mid-2018.

Understanding the Moon’s magnetism is key to learning about its origin. While Earth has a global magnetic field caused by the continued churning of liquid metal near the core, the Moon does not. But 3.6 billion years ago, the Moon had a magnetic field just as strong as Earth’s. When new-forming rocks solidify from their melted states, they lock in traces of the ambient magnetic field at the time. By looking at the ages of different regions and the strength of the magnetic field embedded in rocks, scientists can piece together the Moon’s history. The magnetometer data will be archived in NASA’s Planetary Data System.

SpaceIL’s mission control will be located at Israel Aerospace Industries, the country’s government-owned aerospace corporation located southeast of Tel Aviv. The mission, which now has a reported price tag of $95 million, is bankrolled by billionaire investors that include Israeli entrepreneur Morris Kahn, and U.S. business magnate Sheldon Adelson.

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SpaceIL

Education Impact

OUR VISION

SpaceIL aspires to advance the discourse on science and engineering in Israel and to acquaint the young generation with the exciting opportunities in their future, which STEM studies make possible. Through the anticipation and preparation for the historic landing on the moon of an Israeli spacecraft, our non-profit organization motivates students of all ages and sectors – both male and female – to broaden their knowledge in science, technology, engineering and mathematics; and fosters entrepreneurship, innovation, excellence and leadership. Contemplating ‘the day after’, SpaceIL strives to enhance the quality of education, to close educational gaps in the Israeli society and to provide the graduates of the educational system with the tools they will need in order to thrive in the 21st century.

The SpaceIL moon landing project serves as a source of inspiration and as fertile ground for a long-term impact on the next generation of scientists and engineers in Israel.

THE EDUCATIONAL RATIONALE:

THE FUTURE IS UNKNOWN; THE REQUIRED SKILLS ARE CLEAR

One cannot know with certainty what future the professions will be, but many believe that 80% of them will require knowledge and skills in mathematics and science. However, at present, we, as a society are not prepared for this increased demand for scientific literacy. Even today, Israel is facing a serious shortage of engineers. The number of scientists and engineers in the Israel Defense Forces, the academia and the private sector fall short of the number required to uphold the State of Israel’s technological advantage and to preserve its status as ‘the startup nation’.

From Early Learning to Workforce
The STEM Pipeline in Israel

General Overview and Rationale
According to the World Economic Forum, the world is living its Fourth industrial revolution, which is the combination of cyber-physical systems, Big Data, the Internet of Things, and the Internet of Systems. Alongside great benefits, concerns emerge such as the fact that many jobs and disciplines will disappear and automation, computers and machines will replace workers across many industries, and the gaps between the skills learned and the skills needed is growing. Excellence and literacy in STEM (Science, Technology, Engineering and Math) are considered essential tools for students to measure up to the challenges of the 21st century.
This exponential change will require skills that weren’t given enough weight, if any, in teaching programs at all levels, whether at school, university or work: excellence, innovation, creativity, entrepreneurship, world experience, critical thinking, etc. In recent years key stakeholders and experts in Israel have been warning about growing shortages:
• In skilled students in the education system, as well as in the higher education system that develops STEM tracks;
• In a skilled workforce capable of fulfilling technology-based positions in the military and in industry in the next 10 years; and
• The limited scientific literacy among the general public.
STEM education has thus recently become the focus of an intensive public discussion and debate that can be gauged from increasing government attention and cross-sector initiatives.
An inter-ministerial committee headed by Israel National Economic Council outlined unequivocally the direct link between science and technology literacy at a young age, quality of high school diplomas, the number of students studying relevant fields in higher education, and the flow of a skilled workforce in knowledge-intensive industries, as well as minimizing the socio-economic gaps.

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Future Scientists – The Centre For the Gifted sand Talented
Odyssey -Academic Studies Programmes in the Sciences

General
The Odyssey Program was inspired and initiated by the late President of the State of Israel, Mr. Shimon Peres. The program was developed to nurture a unique scientific-technological group – a new generation of inventors and scientists in Israel who possess both the ability to lead and a sense of social responsibility.

The program includes academic studies in the sciences, alongside work in research laboratories. The participants acquire knowledge, skills and experience coping with complex problems, while accumulating academic credits. The program is implemented in parallel with formal studies and during vacation, the students participate in workshops and full-day intensive seminars.

The program operates through the Maimonides Fund’s Future Scientists Center, as a joint initiative with the Ministry of Education’s Department for Gifted and Talented Students and the National Cyber Bureau within the Prime Minister’s Office. Other partners in the program include the Rashi Foundation, the Jerusalem Foundation, Check Point Software Technologies Ltd., SanDisk, Mellanox Technologies, and Keter

Education for Science and Math – STEM Framework

About the Course Background
“The important thing is not to stop questioning. Curiosity has its own reason for existing. One cannot help but be in awe, contemplating the mysteries of eternity, of life, of the marvelous structure of reality. It is enough if one tries merely to understand a little of this mystery every day.” – Albert Einstein In a world that is becoming increasingly complex, where global problems require multidisciplinary solutions, where citizens and communities need to be creative and analytical in the way they deal with problem solving, our education processes need to be measured not only by what we know, but also by what we can do with that knowledge and even by our ability to develop and combine this knowledge. It is more important than ever for our children and youth to be equipped with the knowledge and skills connected to the 21st century reality, where change is becoming the only constant. In this context, all learners should be prepared to think deeply and critically, to get the knowhow and the skills for creative and analytic thinking so that they have the chance to become the innovators, educators, researchers, and leaders who can solve the most pressing challenges facing our world, both today and tomorrow. These are the types of skills that students learn through Science Education using STEM as a curriculum based on the idea of educating students in four specific disciplines — science, technology, engineering and mathematics — in an interdisciplinary and applied approach. Rather than teach the four disciplines as separate and discrete subjects, STEM integrates them into a cohesive learning paradigm based on real-world applications. While it is almost impossible to list every discipline, some common areas include aerospace, astrophysics, astronomy, biochemistry, biomechanics, chemistry, biomimicry , mathematical biology, nanotechnology, neurobiology, nuclear physics, physics, and robotics, among many, many others. As evidenced by the vast variety of disciplines, it is clear that the Science Education fields affect virtually every component of our everyday lives. This new science education approach is providing the educational system with more tools for quality education, integrating knowledge and methods from different disciplines, using a real synthesis of approaches and principles that should be especially prominent: Interdisciplinary, creativity and Relevance to reality. -The STEAM approach is connecting the dots and providing education with another tool for quality education; integrating knowledge and methods from different disciplines, using a real synthesis of approaches. -In a world where technology has been integrated into our daily lives and in which global problems require multidisciplinary solutions, citizens and communities need to be creative and analytical in the way they deal with problem solving. This educational approach provides the tools for this kind
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of approach. We must give creativity the importance it deserves in order to succeed in a world where change is becoming the only constant. -What separates this approach from traditional science and math education is the blended learning environment and the manner of showing students how the scientific method should be applied to everyday life. It teaches students a different way of thinking and focuses on the real world applications of problem solving. Nowadays we add to STEM an A, for arts. The addition of the arts to the original STEM framework is important as it includes practices such as modelling, developing scientific explanations and engaging in critique, which are often underemphasized in the context of math and science education. The course designed by The Aharon Ofri MASHAV International Educational Training Center is aimed at directors of education departments in education Ministries, Principals and supervisors of primary and secondary schools; Educational staff at schools Training institutions, whose responsibilities involve the allocation of resources and development of educational policies. It is based on the vast experience the Israeli education system has acquired over the years in working towards an educational environment contributive to sustainability and globalization.

STEM Education in Israel: A Case Study

In this chapter, we review the STEM education system in Israel, including historical overview, current reforms and contemporary trends and emphasis. We also describe the research process of the risk management process presented in this Brief, including the Research Methodology (Sect. 3.2.1), Research Participants (Sect. 3.2.2) and Research Tools (Sect. 3.2.3), and the Research Process (Sect. 3.2.4).

Orit Hazzan: Research topics in

Policy of STEM (Science, Technology, Engineering and Mathematics) Education

My recent academic – research and practice – work focuses on Policy of STEM Education, including: • Cross-sector collaboration: upscale processes, collective impact, and RPP • Human resources: predictions and professional development • Strategic analysis: SWOT analysis, risk management, and change management
These topics are addressed in my academic work on K-12, academia and industry levels. Within the context of these topics, STEM education processes on the national level (beyond a specific program or initiate) are examined, in order to make a significant change in the Israeli eco-system to sustain Israel’s economic growth and development My work is largely based on my academic background in mathematics, computer science, education, and management and my acquaintance with the Israeli educational system in general and computer science education in particular, with the academia, and with the industry in Israel and its hi-tech sector. In what follows, several examples of my recent research works, projects and activities on these topics are presented.

IATI’s STEM Education Projects

In recent years we have seen a decrease in STEM (Science, Technology, Engineering and Mathematics) education in Israel. Fewer students are completing 5 units of Mathematics, Physics and Computer Science.

IATI co-leads the project, as our mission is to promote and cultivate the advanced technology industries in Israel and consequently we see great value in promoting STEM education. In order to continue being a Start-Up nation we must strengthen STEM teaching in Israel, and encourage high school students to acquire STEM knowledge.

To bridge this problem IATI is co-leading events to promote STEM Education in Israel, with Government ministries, Educational NGOs and with the High-Tech Companies.,

To find out more about how you can join us for these national efforts, please contact roni@iati,co,il.
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STEM in Israel: The Educational Foundation for ‘Start-Up Nation’

 

Israel launches STEM program for kindergartners

Why did global aerospace giant Lockheed Martin send its chief executive to a Beersheva kindergarten?

Because Lockheed Martin is a major partner in Israel’s first science-technology early education program, thus far serving 100 children. The idea is that it’s never too soon to inculcate the basics of science, technology, engineering and mathematics (STEM) to better prepare the next generation for the job market.

“The future growth of Israel’s economy will require a constant supply of highly trained, highly capable technical talent, which is why advancing STEM education is a critical focus for Lockheed Martin,” said Marillyn Hewson, Lockheed Martin chairwoman, president and CEO.

Lockheed, a large U.S. defense contractor based in Washington D.C. with a campus in Sunnyvale, is among several major multinationals that have established offices in Beersheva’s new Gav-Yam Negev Advanced Technologies Park (ATP), primarily housing companies involved in developing cyber technologies.

In 2014, Lockheed signed a memorandum of understanding with the Israeli government to help advance cyber-education in the Jewish state. Lockheed has since sponsored programs and conferences aimed at helping educators more effectively teach STEM curriculum.

Last year, Lockheed began collaborating with Israel’s Ministry of Education, Ministry of Science and the Rashi Foundation to promote STEM programs for students in kindergarten through high schools.

The new early childhood curriculum was designed to provide 300 hours of science study per year in a stimulating learning environment that allows students to experiment and to experience and develop skills through hands-on creative activities in astronomy, physics, chemistry and robotics.

Over the next three years, classrooms taking part in the project will be equipped with computers, Lego construction kits, robotics experiments and space-related content to encourage a passion for STEM, according to the Rashi Foundation, which leads national projects that bridge educational and social gaps in Israel. The joint initiative is part of the MadaKids program that aims to cultivate future scientists in Israel.

The project is operated by Beit Yatziv, an organization that runs science education programs for some 40,000 elementary school pupils across Israel on behalf of the Rashi Foundation, including a municipal science excellence center in cooperation with the municipality of Beersheva.

“The participating kindergarten teachers received special training at Beit Yatziv that focused on the science behind natural phenomena such as the seasons, astronomy, robotics and more,” said Maya Lugassi Ben-Hemo, head of pedagogy at Beit Yatziv.

In-service training and academic guidance by Kaye College of Education and the pedagogic team of Beit Yatziv will continue through the school year, she added.

Ben-Hemo emphasized that the children won’t lack time to enjoy traditional activities such as coloring and building with blocks. “The science and technology program will be integrated within the regular curriculum of the Ministry of Education for science-oriented kindergartens, which obviously includes play time,” she said.

The goal is for children participating in the program to enter elementary school with a deeper understanding of science, technology, engineering and math, and that this model for technological early childhood education will be duplicated across Israel. The program “is intended to serve as a regional learning center” for teachers, other education professionals and parents, Ben-Hemo said.

Lockheed’s Hewson was not the only big name on hand when the science kindergarten was dedicated this past October. Also in attendance were Minister of Education Naftali Bennett, Beersheva Mayor Rubik Danilovitch, Rashi Foundation chairman (and retired general) Gabi Ashkenazi, and other dignitaries from Israel and abroad.

“The significance of the knowledge the children gain in preschool will be felt in years to come, and it will surely be highly valuable on the personal as well as the national level,” Bennett said at the event. “Opening the first science kindergarten in Beersheva sends a clear message — that everyone, everywhere in Israel, should have equal opportunities.”

Ashkenazi said the Rashi Foundation views the promotion of science and technology education from an early age as a major catalyst for strengthening Israeli society and closing educational gaps between the center and periphery of the country.

“The science kindergarten in Beersheva, the capital of the Negev, is an innovative and unique project that will give children an opportunity to cultivate their independent and inquisitive thinking and make an early start on their science education,” Ashkenazi said. “This is the first step on the path that will lead them, and the country, to new achievements in science and advanced technology.”

Desperately seeking STEM: Ministry works to promote cyber-education

Israel signs second agreement with tech firm Lockheed-Martin to encourage more kids to study science and tech

But despite the best efforts of government and industry, statistics show that STEM is still a hard sell. Kids, it appears, are intimidated by math and science, and prefer “easier” subjects. It’s a major problem around the world, including in the US.

“Ninety-seven percent of US high schools do not teach STEM effectively enough to provide students with real-life skills that will enable them to get into advance tech programs in colleges,” and neither kids, parents, nor school boards are demanding those subjects, according to Rick Geritz, one of the world’s foremost experts on cyber-education.

9/11, Anti-gravity, astro-physics, Chemistry, CIA, cosmology, Dark Matter, DNA, energy, Evolution, Futurism, Genetics, GUT-CP, Humour, hydrides, hydrino, HydrinoDollars, HydrinoEconomy, Molecular modelling, New elements, Philosophy, physics, Randell Mills, SunCell, technology

“We wage a war with no rules”… MI6, you’ve gone mental! This is between me, the CIA, Israel and Russia ONLY! (fucking muppets)

“I use to think ‘ooh be a millionaire’, then I thought ‘be a billionaire’… unless you’re talking in the T’s,, I’m not fucking interested!”

“Energy, water and phosphates… nothing else matters!”

“Energy? This guy, has discovered the energy source of the Universe, the reason the Universe is expanding, the identity of dark matter and dark energy… he’s unlocked the secrets of the atom and Universe… Quantum Physics was ALWAYS bullshit… he’s created a multi-trillion dollar industry (and not just in energy, in EVERYTHING chemical, biological), the biggest paradigm shift in human history… THIS IS THE BIGGEST DISCOVERY SINCE FIRE… for the first time in human history the power of the of the Sun has been brought down to the surface of planet Earth 😉 …

I’ve always had fun with the CIA.
I have lunch with Mossad.
… You need to ask the Russians about our relationship.
MI6 can fuck themselves.

I eat cake with Rothschild.
(best champagne in the world)

wewage

Article, astro-physics, Chemistry, Dark Matter, energy, Futurism, GUT-CP, hydrino, HydrinoEconomy, Philosophy, physics, Randell Mills, SunCell, technology

Dawning of the SunCell® – Series Investigating the Work of Randell Mills by Ed Wall

“Do you know what I think is absolutely amazing! 😀 Well… I was looking at the globe last night, thinking about the Sentinelese tribe, who I’ve been reading about for past two/three years funnily enough… and I was thinking, you have a small group of scientists in Jersey, thirty/forty?… who have unlocked the secrets of the atom, unlocked the greatest energy source in the Universe, and are potentially paving the way for a new technological age for human kind… … but yet there are probably more human beings who are yet to discover how to create fire!” 😀

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And I thought to myself!… 😀

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Dawning of the SunCell®

Part 1 of a Series Investigating the Work of Randell Mills – Ed Wall

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Dawning of the SunCell®

Part 2 of a Series Investigating the Work of Randell Mills -Ed Wall

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Dawning of the SunCell®

Part 3 of a Series Investigating the Work of Randell Mills -Ed Wall

Here’s another song for Amb. James R Woolsey! 😀
https://www.youtube.com/watch?v=9JDzlhW3XTM

 

Anti-gravity, artificial intelligence, astro-physics, Chemistry, cosmology, Dark Matter, DNA, energy, Environment, Genetics, GUT-CP, hydrides, hydrino, HydrinoEconomy, Millsian, Molecular modelling, New elements, particle physics, Randell Mills, SunCell, technology

Science On Tap… … TEL AVIV! ;D

“I’m thinking maybe Tel Aviv? The Weizmann Institute of Science?… some other people. Does Tel Aviv not host an annual piss up, with science lectures in bars?”
Science On Tap
“That’s the one!… yeah… in May? I was going to attend an Ayahuasca conference in Spain, but I’m going to go and check Israel out instead… go and do Tel Aviv and Haifa… see if I can fit in some Krav Maga training whilst I’m there” ;D~

Does anyone from the UK have a problem with me visiting Israel? Oh wait…
…………………./´¯/)
………………..,/¯../
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…………./´¯/’…’/´¯¯`·¸
………./’/…/…./……./¨¯\
……..(‘(…´…´…. ¯~/’…’)
………\……………..’…../
……….”…\………. _.·´
…………\…………..(
…………..\………….\…

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Science on Tap 2017
An influential initiative, creating a new urban culture that has been adopted around the globe – presented by Yivsam Azgad, Spokesman and Curator of the Weizmann Institute of Science, ISRAEL.
What is it? About 60 leading scientists and outstanding PhD students appear – on the same day, same hour – in bars and cafes around the city for informal talks with the patrons on the open scientific questions in their fields, on the sense of discovery, and on life on the “frontier” of science.
Are there parallel realities? Do dark energy and dark matter rule the Universe? How did life originate? Can we build a brain? Is nuclear fusion the solution to our energy problems? What do we mean by “personalized medicine?” Why do stars explode? Are we truly made of stardust? These are just a few of the questions that the scientists discuss.
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Science on Tap 2018
Dozens of top scientists and outstanding research students from the Weizmann Institute of Science will be in 51 bars in Tel Aviv to talk with the patrons.
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In Tel Aviv, Quantum Physics Is Taught Over a Glass of Beer
Scientists raid Tel Aviv bars for one night a year, as part of the successful tradition called ‘Science on Tap.’
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Weizmann Institute Of Science
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HERE’S SOMETHING INTERESTING FROM WEIZMANN INSTITUTE!…

Plants rule
Prof. Ron Milo’s lab reveals stunning insights about Earth’s biomass
While humans make up just a tiny fraction—only 0.01 percent—of the mass of all living things, we are responsible for a hefty amount of destruction across other species.
Human activity has caused a decline in the total biomass of wild mammals—both marine and terrestrial— by a factor of six, or over 80 percent, since the dawn of civilization, according to a new Weizmann Institute-led study. Meanwhile, the total plant biomass has declined twofold since the emergence of people on the planet due to the cutting down of forests.
But the surprising finding was that plants still rule the Earth—comprising about 450 gigatons of carbon (Ct C) out of the total 550 Gt C of biomass on Earth. In comparison, humans make up a staggeringly low 0.06 Gt C, despite our enormous impact.
The study, recently published in the Proceedings of the National Academy of Sciences, includes a census of the total biomass distributed among all kingdoms of life. Performed by PhD student Yinon Bar-On from Prof. Ron Milo’s laboratory in the Department of Plant and Environmental Sciences, in collaboration with Caltech Prof. Ron Phillips, the research provides a holistic view of the biosphere’s composition while characterizing patterns according to taxonomic categories, geography, and nutrition. To assemble the census, the scientists conducted extensive analyses based on hundreds of existing studies.
Another insight from the study was that while the biomass of wild animals has declined steeply, the total mass of mammals—including humans and livestock—increased fourfold.
“Over the relatively short span of human history, major innovations, such as the domestication of livestock, the adoption of an agricultural lifestyle, and the Industrial Revolution, have increased the human population dramatically and have had radical ecological effects,” the authors observe. “The impact of human civilization on global biomass has not been limited to mammals but has also profoundly reshaped the total quantity of carbon sequestered by plants.”

Yeah anyway… Tel Aviv!
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Tel Aviv Among World’s ‘Heavyweight’ Tech Hubs, Says New Report
While Silicon Valley is still “off the charts” as a global tech hub, Beijing and Shanghai are catching up and Tel Aviv is among the most influential and most international, with more deals involving foreign investors, according to a new report this week by New York-based research firm CB Insights.

Silicon Wadi
Silicon Wadi[1] (Hebrew: סיליקון ואדי‎, lit: “Silicon Valley”) is an area with a high concentration of high-technology companies on the coastal plain of Israel, similar to Silicon Valley in the U.S. state of California, and is the reason Israel is nicknamed the Start-Up Nation.[2][3] The area covers much of the country, although especially high concentrations of high-tech industry can be found in the area around Tel Aviv, including small clusters around the cities of Ra’anana, Petah Tikva, Herzliya, Netanya, the academic city of Rehovot and its neighbour Rishon Le Zion. In addition, high-tech clusters can be found in Haifa and Caesarea. More recent high-tech establishments have been raised in Jerusalem, and in towns such as Yokneam Illit and Israel’s first “private city,” Airport City, near Tel Aviv.
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Tel Aviv Startup City
Ranked one of the world’s leading innovative cities, Tel Aviv is at the heart of the global startup scene. Through its vast resources, top talent, highest level of venture capital per capita, and non-stop culture, Tel Aviv is the place to be to create the next big project. Tel Aviv welcomes all ideas and startups no matter the size and will support you in your journey. The city, with its fast-paced nightlife and unforgettable environment, breeds the best innovation, uniqueness, and creativity.
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The Rise Of Tel Aviv’s Tech Hub
Tel Aviv has long been the epicentre of Israel’s bustling high tech scene. The latest trend overtaking the startup world is shared workplaces dedicated for techies and young professionals alike to work in, and Tel Aviv’s famously (un)corporate work culture is leading the way. Built around open spaces and geared towards networking, these hubs range from so-called “accelerators” run by investors, to small communal offices for freelancers and creatives. In Tel Aviv, you can find a wide variety of both, with big firms like Microsoft setting up shop alongside hip young workspaces, perfect for the gig economy.

Tel Aviv Tech Hub May Be Small, But It Leads with Large Exits, Report Says
A new report by research firm CB Insights says that among the world’s six heavyweight tech hubs, Tel Aviv has the lowest number, highest quality of deals.

10 disruptive Israeli companies that can wean the world off fossil fuels
Solar, water, geothermal and wind power, battery techs and electric-car components are areas where Israelis are leading the renewable revolution.

Energetics Technology Ltd.
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