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Speaker 0 notes that Earth's climate changes radically over roughly ten thousand years, shifting from extremely hot to extremely cold, with ice ages and changes in the magnetic poles. Speaker 1 adds that on the climate change issue, he is fully convinced: even if we may not know exactly what is causing climate change, we suspect it is the sun, and there is a lot of evidence suggesting it is probably the sun. He estimates that about 90% of the evidence points to the sun, indicating a high level of certainty.

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- They mentioned 8.2 kilo year event, which occur roughly 8,000 years ago, and the Younger Dryas period, which occurred roughly 12,700 years ago. - Now, what does these two events have in common? During these two events, there was a geomagnetic excursion. - Here's the study for the event 8,200 ago. So they suggest based on evidence found in a volcano in China that roughly 8,000 ago, there there was an unrecognized younger Holocene geomagnetic excursion. - So this suggests that this climate change eight thousand years ago occurred because of geomagnetic excursion. - During the Younger Dryas, there was also a geomagnetic excursion called the Gothenburg magnetic excursion. - So you can see that it ranges from 30,000 years to 12,000 years ago before present, exactly aligns with the younger, driest, abrupt climate change. - And what's happening today? Of course, there is a geomagnetic excursion. - You can see the pole shift acceleration around 1994. Just watch this acceleration.

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In the past million years, the Earth has faced ice ages regularly. Scientists warn that the next ice age could bring hunger and death on an unprecedented scale. The harsh winter of 1977 in the US is a glimpse of what might come. Climate experts predict Arctic cold and perpetual snow could turn much of the planet into a polar desert within our grandchildren's lifetime. Evidence shows temperatures dropping, suggesting the ice age could arrive sooner than expected. Earth is the only planet in our solar system suitable for human life.

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Speaker 1 explains that when he says the Earth’s magnetic field has remained roughly constant over long timescales, he means its magnitude is roughly constant on those scales, though it varies and undergoes reversals where the North and South Poles flip. He notes that reversals correlate with ice ages and other climate signals, but averaging over these fluctuations keeps the amplitude roughly constant. He emphasizes that without a dynamo, the field would diffuse away in about 10^5 years, leaving Earth unprotected from cosmic radiation, which would be harmful to life. Speaker 3 asks about the use of quantum computing in plasma physics, acknowledging its newness. Speaker 1 answers: We can’t use it right now. The short answer is “we cannot.” The longer answer is that it may take twenty years for a quantum computer to become useful for solving real problems. It would be a mistake to wait twenty years and then try to port existing codes to a quantum computer, because quantum computing has a fundamentally different architecture. Therefore, two lines of thought should develop in parallel: by the time a useful quantum computer exists, we should already know how to map our problems to it. Speaker 1 elaborates that solving nonlinear problems on a quantum computer is not straightforward. He discusses the challenge of devising quantum algorithms for nonlinear problems. He mentions working with the Madelung transformation, which maps the Schrödinger equation into fluid-like equations, noting that this approach is interesting because magnetohydrodynamics (MHD) equations are similar in some ways. While the Madelung transformation has limitations, it illustrates the kind of problem mappings that might make certain problems more tractable on a quantum computer, though this represents a completely different paradigm from conventional computing. Speaker 3 thanks Speaker 1. Speaker 2 closes the session, noting the competition starts in about three and a half hours and that in about six hours there will be another talk on quantum computing with Tim from NYU Shanghai. He invites participants to tune in to see what the computer that might someday help solve these problems could look like. He thanks Professor Nun Lora again, and the session ends with acknowledgments from Speaker 1.

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Earth's climate has changed dramatically over the last 10,000 years, shifting between extreme heat and cold, including ice ages. Currently, we are in a sort of ice age, though definitions vary. The last significant ice age saw a lack of written records, with writing emerging after this period. There is speculation about the possibility of another dark age, especially if a third world war occurs. Establishing self-sustaining bases on Mars and the Moon could help preserve human civilization and aid in rebuilding after potential global conflicts. Given historical patterns, it seems likely that another world war could happen, and it may have catastrophic consequences.

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Climate is always changing, with measurable changes in temperature and rainfall. The planet has been warming and cooling for 4.567 billion years, and for most of that time, it has been warmer and wetter with higher sea levels than now. Warmings and coolings are driven by the Earth's distance from the sun, which changes due to its orbit shifting from circular to elliptical, its axis changing, and its wobbling. Unless you can change the magnetic fields of the sun or the Earth's orbit, you cannot change the climate. Throughout Earth's history, there have been millions of climate changes, none of which have been identified as driven by changes in atmospheric carbon dioxide. There is no record of carbon dioxide driving climate in the past, so there is no logical reason to think that current climate change is driven by changes in carbon dioxide. The past is the key to the present.

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Earth's climate changes radically over ten thousand years, shifting from extremely hot to extremely cold, as seen in ice ages. The magnetic poles have also shifted over time. While the exact cause of climate change is unknown, there's a strong suspicion, around 90% certainty, that it's the sun.

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Earth's climate changes drastically over 10000 years, going from hot to cold with ice ages. We are technically in an ice age now, but the definition is debated. Writing appeared after the last ice age, suggesting a significant event. To prevent a dark ages after a possible World War 3, a self-sustaining base on Mars is crucial. History shows a pattern of wars, so preparing for the future is important.

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Speaker 0: We have been cooling down for the last four thousand years. If we look at the last thirty eight years, there has been no change in temperature. In the last hundred and fifty years, we've had three warming periods and three cooling periods with a total warmth of about point six degrees Celsius. 1850, what happened then? Oh, yes. That was the end of the Little Ice Age. Do you think it's gonna warm or cool after Little Ice Age? Of course, it's gonna warm. So if you start taking measurements from 1850 in the industrial revolution, we have been warming. If you take measurements from the medieval warming, we've been cool. We've cooled about five degrees since then. If you take measurements from the Roman warming, we've cooled about five degrees. So as soon as someone tells you, oh, it's warming, the reply you give is since when?

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Earth's climate also changes pretty radically over the course of like say ten thousand years. You know, it can shift from being extremely hot to extremely cold. You can really go down a deep rabbit hole if you read about ice ages. That that that how much Earth's climate has changed and even where the where the magnetically where the poles are have has shifted over time. So on the climate change issue, I'm fully convinced. After all these years, even though we may not know exactly what is causing climate change, we suspect it's the sun. We have a lot of evidence to show that it's probably the sun. Very high percentage, you know, like, I would say, 90%, we're sure.

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For the past 10,000 years, it has been warmer than today for about 95% of the time. Throughout the Earth's history of 4.65 billion years, there has been substantial ice on the planet for only about 5-10% of that time. Currently, we have low levels of CO2 compared to Earth's history. The carbon dioxide in the room is around 900, but there is nothing bad about it. In fact, the more carbon dioxide, the better.

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Earth's climate changes drastically over 10000 years, going from hot to cold with ice ages. We're technically in an ice age now, but definitions vary. Global warming's impact is debated. The last ice age may have spurred the rise of writing. Another dark ages could occur, so establishing self-sustaining bases on Mars or the Moon is crucial. World War 3 could lead to the need for civilization regeneration. History shows a pattern of conflict, possibly leading to radioactive issues in the future.

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Earth's climate has drastically changed over the past 10,000 years, shifting between extreme temperatures and ice ages. Currently, we are in a period often referred to as an ice age, although definitions vary. The last significant ice age saw a lack of written records, with writing emerging afterward. There is speculation about the possibility of another dark age, especially if a major conflict like World War III occurs. Establishing self-sustaining bases on Mars and the Moon could help preserve human civilization and facilitate recovery after such a catastrophe. Given historical patterns, the likelihood of future global conflicts remains high, and the consequences could be severe.

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Over the past 4000 years, the planet has been cooling down. In the last 38 years, there has been no change in temperature. In the last 150 years, there have been 3 warming periods and 3 cooling periods, resulting in a total warmth of about 0.6 degrees Celsius. The warming after the little ice age in 1850 is expected, and if measurements are taken from that time, we have been warming. However, if measurements are taken from the medieval warming or the Roman warming, we have actually been cooling by about 5 degrees. So, when someone says it's warming, the question to ask is, since when?

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Scientists have found a link between temperature and CO2, but it's the opposite of what many believe. In the past, temperature has risen first, followed by a rise in CO2 levels. Ice ages start when CO2 is at its maximum and end when it's at its minimum, contradicting the idea that CO2 controls temperature. Looking back over millions of years, CO2 levels have changed drastically, but they have never driven temperature changes.

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I want to explore topics like cataclysms, the Younger Dryas, and lost ancient technology, particularly the idea of magnetic pole shifts. There's scientific consensus that the last shift occurred around 778,000 years ago, and we are about 200,000 years overdue. The theory suggests these shifts happen in cycles of 65,000 years, involving a 90-degree flip of the planet. This shift causes the Earth to momentarily stand still, with the sun remaining in one spot, leading to significant heating effects.

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We are currently in an interglacial period within an ongoing ice age that started 34 million years ago. The climate fluctuates between cold glaciation and warm interglacial periods, driven by the sun's heat. The distance from the sun determines the temperature, not trace gases. No legislation can alter the Earth's orbit, which will eventually lead us into another cool period. These climate cycles occur every few hundred million, hundred thousand, and few thousand years, influenced by factors such as continental movements, cosmic rays, orbital changes, solar activity, tides, and oceanic patterns. The combination of these cycles can bring about rapid climate changes.

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Earth's climate changes radically over ten thousand years, shifting from extremely hot to extremely cold. The Earth's magnetic poles have also shifted over time. While the exact cause of climate change is unknown, there is suspicion and evidence suggesting the sun is the primary factor. There is a high degree of certainty, around 90%, that the sun is the cause.

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Earth's climate has changed drastically over 10000 years, with shifts from hot to cold and ice ages. We are technically in an ice age now, but the definition varies. Writing emerged after the last ice age, suggesting a significant event. To ensure human civilization's survival in case of another world war, establishing self-sustaining bases on Mars or the Moon is crucial. History shows a pattern of wars, making another world war likely. This could lead to a radioactive problem if not addressed.

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Alec asked whether the Earth’s magnetic field has weakened by about 10% in the last 150 years and how that relates to the claim that the field has remained roughly constant over the last billion years. Professor Nun Lora explained that when we say the field has remained roughly constant, we mean its magnitude is roughly constant on long time scales, though it varies and undergoes reversals (the North Pole becoming the South Pole and vice versa). These reversals correlate with various ice ages, but averaged over fluctuations, the amplitude of the field has remained roughly constant. If there were no dynamo, the magnetic field would have diffused quickly (within about 10^5 years), and Earth would lack a protective field against cosmic radiation. Alec thanked the speaker. A last question from another participant (Speaker 3) asked how quantum computing is being used in plasma physics, given its novelty. Professor Nun Lora responded that we cannot currently use quantum computing for these problems. The longer view is that it may take about twenty years for a quantum computer to be useful for solving real problems, but it would be a mistake to wait to start thinking about how to use it. It won’t be as simple as porting existing codes to a quantum computer because the architecture is fundamentally different. Two parallel lines of development are needed: (1) preparing for a future quantum computer and (2) understanding how to map problems into quantum-friendly formulations. The challenge is that many problems are nonlinear, making it unclear how to devise quantum algorithms for them. She gave an example of the Madelung transformation, which maps the Schrödinger equation to fluid-like equations and potentially relates to magnetohydrodynamics (MHD). This approach shows a possible direction for problem mapping, but it represents a completely different way of thinking compared to conventional computing. The session concluded with the moderator noting the competition starts in about three and a half hours, and in about six hours the next talk will be on quantum computing with Tim from NYU Shanghai. The moderator thanked Professor Nun Lora again, and the session ended.

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Over the past 4000 years, the planet has been cooling down. In the last 38 years, there has been no change in temperature. In the last 150 years, there have been 3 warming periods and 3 cooling periods, resulting in a total warmth of about 0.6 degrees Celsius. The warming after the Little Ice Age in 1850 was expected, and since then, we have been warming. However, if we consider measurements from the medieval and Roman warmings, we have actually cooled about 5 degrees. So, when someone claims it's warming, the question to ask is, "since when?"

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People shouldn't panic about global warming because current changes are normal based on Earth's natural history. Over the last 10,000 years, temperatures have fluctuated by about one degree at the Equator and two degrees at the poles every thousand years. The current rate of rise is about one degree per century, which is not unusual. The IPCC's models are flawed because they assume no natural change. The greenhouse effect is small compared to other atmospheric factors like solar radiation and gravity, with oceans and clouds primarily controlling climate stability. The pre-industrialization period used as a baseline by the IPCC was the lowest point in the last ten thousand years. It is currently one degree above that low but two degrees cooler than the warmest period in the last eight to ten thousand years. During the last interglacial period, it was six degrees warmer, and hippos and elephants lived in England.

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Earth's climate undergoes significant changes over thousands of years, shifting from extreme heat to extreme cold, as seen in ice ages. Additionally, the magnetic poles have also shifted over time. Regarding climate change, there is a strong belief that the sun plays a major role in these changes. While the exact causes of climate change are still being studied, there is substantial evidence suggesting that solar activity is responsible for a large percentage of it, with a high level of confidence in this conclusion.

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For the past 4000 years, the planet has been cooling. In the last 38 years, there has been no temperature change. Over the last 150 years, there have been 3 warming periods and 3 cooling periods, with a total warmth increase of 0.6 degrees Celsius. The end of the Little Ice Age in 1850 marked the start of warming. Since then, we have warmed due to the Industrial Revolution. If we measure from the medieval and Roman warmings, we have actually cooled by about 5 degrees each. So, when someone says it's warming, ask them since when?

The Joe Rogan Experience

Joe Rogan Experience #606 - Randall Carlson

Guests: Randall Carlson

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In this episode of the Joe Rogan Experience, Joe Rogan welcomes Randall Carlson, who previously captivated audiences with his discussions on cataclysmic events and asteroidal impacts. Carlson shares insights from a recent trip with Graham Hancock, focusing on landscapes shaped by catastrophic events. He discusses Hancock's theories about lost civilizations and the evidence supporting them, including sites like Gobekli Tepe, which may date back over 12,000 years and suggest advanced prehistoric societies. Carlson emphasizes the dramatic changes in Earth's climate and geography over the last 15,000 years, noting that modern civilization may be a "reboot" following a series of cataclysmic events that erased much of the evidence of earlier cultures. He argues that the lack of archaeological findings from before these events can be attributed to the planet's dynamic nature, which has reshaped landscapes and erased historical records. The conversation shifts to the Younger Dryas period, a time of significant climate change that coincided with mass extinctions, including that of the woolly mammoth. Carlson challenges the prevailing theories of human overkill as the primary cause of these extinctions, suggesting instead that they were likely the result of rapid environmental changes. Carlson also discusses the implications of ancient myths and legends, suggesting they may encode historical truths about past catastrophes. He highlights the importance of understanding these narratives in the context of human history and evolution. The discussion touches on the potential for advanced civilizations to have existed before recorded history and the possibility of extraterrestrial influences on human development. As the conversation progresses, Carlson connects the geometry of ancient structures to cosmic patterns, suggesting that sacred geometry reflects the underlying order of the universe. He argues that the architecture of the solar system is intricately linked to the design of ancient monuments, indicating a profound understanding of cosmic principles by ancient cultures. Rogan and Carlson conclude by reflecting on the need for humanity to recognize its place within the larger cosmic context and the importance of learning from past catastrophes to avoid repeating history. Carlson expresses optimism about the future, emphasizing the potential for human innovation and growth in the face of challenges. The episode wraps up with Carlson promoting his work and inviting listeners to explore the connections between ancient wisdom and modern science.