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    TADEASplanetarita - 'making life planetary'
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    Nasa says Dart mission succeeded in shifting asteroid’s orbit | Nasa | The Guardian
    https://www.theguardian.com/science/2022/oct/11/nasa-dart-spacecraft-asteroid-successful
    YMLADRIS
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    TADEAS: bude urcite zajimavy sledovat, jestli si nektere AI vynaleznou pain and pleasure (k tomu Lexovu navrhu, ze vedomi by slo detekovat skrz indicie ze je zazivano utrpeni). zatim jsem to pochopila tak, ze v otazkach kolem AI je vedomi druhotny, ze to neni dulezity, inteligence muze fungovat bez toho i s tim, nemeni to az tak na tech existencialnich otazkach co to zpusobi ve svete
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    Do aliens have consciousness? | Michael Levin and Lex Fridman
    https://youtu.be/KrFr_-f9PgA
    YEETKA
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    diné native o možnostech proměn přírody ve prospěch všech, lidí, zvířat, rostlin, kmene i krajiny samotné..
    podobně jako robin kimmemer

    https://m.youtube.com/watch?v=eH5zJxQETl4
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    avi loeb

    Advice to Young People. Towards the end of two podcasts in the… | by Avi Loeb | Aug, 2022 | Medium
    https://avi-loeb.medium.com/advice-to-young-people-dbc633234a85

    Newspapers and social media are consumed by events on Earth. But there is much more to the universe than meets the eye on Earth. Let me illustrate that with three examples. First, the doctoral thesis submitted in 1925 by the young scientist, Cecilia Payne-Gaposchkin, showed that the Sun has a different composition from that of the Earth and is made mostly of hydrogen. She was dissuaded by the authority on stars at the time, Henry Norris Russell, from including this conclusion in her thesis. Four years later, he confirmed her conclusion. In the second example from 1933, a young Fritz Zwicky argued that most of the matter in the Universe is made of a substance different from what we find in the Solar system. For four decades his suggestion was still sidelined by his colleagues at Caltech. By now, Zwicky’s notion is mainstream although we still do not know what the dark matter is. In a third example, the first two interstellar objects discovered over the past five years, CNEOS 2014–01–08 and `Oumuamua, have anomalous properties relative to the comets and asteroids found in the Solar system. Yet, the possibility of an artificial origin for them is sidelined. This is on the backdrop of us knowing that the dice of intelligence was rolled tens of billions of times in the Milky Way alone and that humanity launched five spacecraft out of the solar system over a period as short as one part of a hundred million of the age of the Sun.

    While adult “experts” celebrate the “known” and sideline the “unknown”, the actual message we get over and over again from the cosmos is that we should not pretend to be anything more than curious children on their first day in class.
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    for the first time, we will measurably change the orbit of a celestial body in the universe


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    Planetary defense test: NASA's DART spacecraft crashes into asteroid | DW News
    https://youtu.be/fKuDTls4ZZc
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    Watch a Live Feed from NASA’s DART Spacecraft on Approach to Asteroid Dimorphos
    https://youtu.be/-6Z1E0mW2ag
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    Nasa to crash spacecraft into asteroid in planetary defense test | Nasa | The Guardian
    https://www.theguardian.com/science/2022/sep/26/nasa-spacecraft-asteroid-crash-planetary-defense-test
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    Water found in asteroid dust may offer clues to origins of life on Earth | Space | The Guardian
    https://www.theguardian.com/science/2022/sep/22/water-found-in-asteroid-dust-may-offer-clues-to-origins-of-life-on-earth
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    NASA’s Perseverance Rover Investigates Geologically Rich Mars Terrain | NASA
    https://www.nasa.gov/press-release/nasa-s-perseverance-rover-investigates-geologically-rich-mars-terrain/

    “The presence of these molecules is considered to be a potential biosignature–a substance or structure that could be evidence of past life but may also have been produced without the presence of life.”
    TUHO
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    Scientists Debate Gaia: The Next Century

    Scientists Debate Gaia is a multidisciplinary reexamination of the Gaia hypothesis, which was introduced by James Lovelock and Lynn Margulis in the early 1970s. The Gaia hypothesis holds that Earth's physical and biological processes are linked to form a complex, self-regulating system and that life has affected this system over time. Until a few decades ago, most of the earth sciences viewed the planet through disciplinary lenses: biology, chemistry, geology, atmospheric and ocean studies. The Gaia hypothesis, on the other hand, takes a very broad interdisciplinary approach. Its most controversial aspect suggests that life actively participates in shaping the physical and chemical environment on which it depends in a way that optimizes the conditions for life. Despite intial dismissal of the Gaian approach as New Age philosophy, it has today been incorporated into mainstream interdisciplinary scientific theory, as seen in its strong influence on the field of Earth System Science. Scientists Debate Gaia provides a fascinating, multi-faceted examination of Gaia as science and addresses significant criticism of, and changes in, the hypothesis since its introduction. In the book, 53 contributors explore the scientific, philosophical, and theoretical foundations of Gaia. They address such topics as the compatibility of natural selection and Gaian processes, Gaia and the "thermodynamics of life," the role of computer models in Gaian science (from James Lovelock's famous but controversial "Daisyworld" to more sophisticated models that use the techniques of artificial life), pre-Socratic precedents for the idea of a "Living Earth," and the climate of the Amazon Basin as a Gaian system.


    http://library.lol/main/B5DC28F12893D98B4B401A76ED792B63
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    TADEAS: 29:20 vyklad vzniku zivota z planetarni perspektivy
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    elon musk reading pale blue dot: "there is nowhere else at least in the near future to where our species could migrate. this is wrong"

    :))

    Elon Musk: Pale Blue Dot and Beyond
    https://youtu.be/lVsZD2wF1vw
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    Carl Sagan - Pale Blue Dot
    https://youtu.be/wupToqz1e2g
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    classic

    Carl Sagan: Christmas Lectures 1 - The Earth as a Planet
    https://youtu.be/BdXtjNSDi4s
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    What Kind of Extraterrestrial Life Should We Be Searching For? - The Atlantic
    https://www.theatlantic.com/science/archive/2022/09/search-for-extraterrestrial-life-aliens/671410/

    The Case for Technosignatures: Why They May Be Abundant, Long-lived, Highly Detectable, and Unambiguous - IOPscience
    https://iopscience.iop.org/article/10.3847/2041-8213/ac5824

    A new study, led by Jason Wright of Penn State University and to which I contributed as part of a NASA-funded technosignature-research group, has laid out the argument that astronomy is overlooking the value of technosignatures. The problem with biosignatures is that they’re forever tied to their biospheres—their planets. Biosignatures have no way to leave their biosphere of origin. And, for that matter, if all life were to disappear from Earth tomorrow, most of Earth’s biosignatures would disappear quickly too. For example, the oxygen in our atmosphere comes from the planet’s life. If that life went extinct, atmospheric oxygen would react back into rocks and disappear quickly on the scale of deep time.

    To detect a biosignature, in other words, we have to find a fully functional biosphere. But we don’t really know how long biospheres generally last. Ours has, thankfully, persisted for more than 3 billion years. But there are many ways a biosphere might die, including the loss of the planet’s atmosphere from solar winds or a really big asteroid impact. Once the biosphere goes, the biosignatures likely go with it.

    Technosignatures have no such constraint. Consider the fact that the solar system is already full of Earth’s technosignatures. More than 10 spacecraft are orbiting Mars or on its surface right now. And that’s just one planet. Hundreds of other spacecraft are out there traversing the sun’s spaceways. We have even blasted five craft entirely out of the solar system and into the interstellar domain. Every one of these machines we’ve sent into space constitutes a material technosignature—an artifact—in its own right. More important, all of the active ones are sending radio signals into space. These signals are weak, but each still constitutes a technosignature that some other species conceivably could detect.
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    Energy and matter at the origin of life | Royal Society of Biology East Midlands branch
    https://youtu.be/FWVAyAnrhXU
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