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The famous Fibonacci sequence has captivated mathematicians, artists, designers, and scientists for centuries. Also known as the Golden Ratio, its ubiquity and astounding functionality in nature suggests its importance as a fundamental characteristic of the Universe. Science amazing science cool stuff science weird science cool nature science cool stuff.

We’ve talked about the Fibonacci series and the Golden ratio before, but it’s worth a quick review. The Fibonacci sequence starts like this: 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55 and so on forever. Each number is the sum of the two numbers that precede it. It’s a simple pattern, but it appears to be a kind of built-in numbering system to the cosmos. Here are 15 astounding examples of phi in nature. Science amazing science cool stuff science weird science cool nature science cool stuff.

science golden ratio

https://www.youtube.com/watch?v=pVW9UNQVRtk

The rise of cryptocurrency is changing the philanthropic world by causing the redistribution of wealth from old money to visionary innovators and early tech adopters. The new crypto rich invest their donations by supporting scientific research in groundbreaking fields that may one day enable humanity to cure aging, reverse death and completely change the relationship between work and income.

Also Read: How Does a Country Do an ICO? They Call It QE

Examining the record of donations made by the crypto rich reveals a pattern of support for goals that others may feel belong in the pages of science fiction novels. Having benefited greatly from recognizing the potential of peer to peer electronic cash earlier than the masses, it is no surprise that they have great optimism in the power of technology to radically change our lives for the better.

https://www.youtube.com/watch?v=tSBznQw43GM

With the increasing popularity of science journalism, scientists are starting to be rewarded for doing research that is more likely to have a public impact, rather than be centered on esoteric subjects. The bad side of this? To win acclaim and make a “big splash” in the media, a scientist may push results that are fraudulent or report findings that haven’t been completely verified yet in order to beat the competition.

In this video, game theory expert Kevin Zollman discusses how bad science is sometimes propagated nowadays for the sake of a scientist’s personal interests.

The following is a white paper on the Metagame concept and meme. Metagame means “above” or “beyond” the game. The core idea of the Metagame is that voluntary participation in life itself constitutes a Divine Game with rules, purpose, and feedback. The Game asserts the existence of a Divine Science at the original root of the philosophical and religious tradition and at the root of coordinative social self organization. The Metagame is a shared learning community of people who are involved in research or creative projects that deal with these areas. Such areas are important to the health of the social fabric. Herein, we propose two phases and explore several areas of research that may be relevant to the Game.

Introduction:

“According to our social science, we can be or become wise in all matters of secondary importance, but we have to be resigned to utter ignorance in the most important respect: we cannot have any knowledge regarding the ultimate principles of our choices, i.e., regarding their soundness or unsoundness; our ultimate principles have no other support than our arbitrary and hence blind preferences. We are then in the position of beings who are sane and sober when engaged in trivial business and who gamble like madmen when confronted with serious issues — retail sanity and wholesale madness.” — Leo Strauss, Natural Right and History (1953)

Scientists have created an image which zooms in to a tiny section inside a cell. This is not a simulation, it is the real thing. As you run the video, you will see the section highlighted in green and then thin yellow tubes inside it. These are strands of the body’s clotting agent ready to be transported to the site of a wound.

https://www.youtube.com/watch?v=8EMgEldL8u4

Ellen Swallow Richards was not going to be intimidated by a room full of health experts and officials. Children were dying and their parents, Boston’s taxpayers, and city officials were to blame. The tiny, square-chinned woman thought nothing of climbing over boulders in petticoats, collecting thousands of water samples by horseback, or exploring mines on her honeymoon. So when she took the podium at the 1896 meeting of the American Public Health Association, she wasted no time in laying out her evidence.

More than 5,000 cases of illness could be attributed to the illegal conditions in Boston’s public schools, she said. Buildings lacked ventilation. Sewer pipes were still open. Toilets were filthy. Some 41 percent of the floors had never been washed. Only 27 of the city’s 168 schools had fire escapes that worked. Fully half of Boston’s schoolhouses were “deleterious to health.” The public and parents should be charged with “the murder of some 200 children per year,” Richards declared, their deaths entirely preventable from environmental hazards.

The strident, accusatory tone of Richards’ speech was remarkable, given how tactful she had been in the first two decades of her career. That tact had been a coping strategy, characteristic of a pragmatic feminism. Richards had been the first woman admitted to the Massachusetts Institute of Technology and the university’s first woman instructor. To blend in, she made a conscious effort to appear as unthreatening and feminine as she possibly could to her male colleagues. She even mended their clothes when they asked.