Menu

Blog

Archive for the ‘climatology’ category: Page 52

Oct 16, 2022

Cryonics with Dr Max More #10

Posted by in categories: climatology, cryonics, geopolitics, law, life extension, transhumanism

Do we need a new criteria for death, that covers the technicalities around neuro preservation, issues of legal identity upon reanimation and an approach to rehabilitation? What are the misunderstandings or misinformation that surround transhumanism and endeavour to make the distinction between transhumanism and technocracy? Should we be worried about the wrong headedness of The Population Bomb, climate catastrophism and the fashionability of long termism?

Today, I speak with Max More. As some of you may already know, Max is considered to be the founder of modern transhumanism, a philosopher and futurist who writes extensively on technology and humanity. He’s also currently ambassador and President Emeritus at Alcor Life Extension Foundation, having served almost 10 years as President and CEO there, and having been its 67th member. His 1995 University of Southern California doctoral dissertation, ‘The diachronic self identity continuity and transformation’, examined several issues that concern transhumanists, including the nature of death. He is the Co-editor of Rhe Transhumanist Reader, and he’s written many articles on transhumanism and extropianism, including the 1990 essay, ‘Transhumanism: toward a futurist philosophy’, in which he introduced the term transhumanism, in its modern sense.

This episode of The Future of You covers:

Oct 13, 2022

Scientists demonstrate that electricity may be obtainable from water with a high salt concentration

Posted by in categories: climatology, sustainability

Devising renewable sources of energy is a key concern for scientists, political leaders and communities as the world comes to terms with the realities of climate change and the limits of the Earth’s natural resources. In an exciting new development, scientists from the Institute of Scientific and Industrial Research (SANKEN) at Osaka University have demonstrated that electricity may be obtainable from water with a high salt concentration, such as seawater.

Some people think about “” as just a science term they were forced to learn in elementary school biology class. However, the spontaneous motion of dissolved ions or molecules through a semi-permeable membrane when there is a concentration difference between the two sides can be harnessed to generate electricity. And luckily for us, the oceans are filled with salty water, which may be used to help alleviate humanity’s ever-growing demand for energy. However, in order to be practical, this membrane needs to be very thin and highly selective to allow ions—but not water molecules—to pass through.

Now, a research team led by Osaka University has used conventional semiconductor processing technology to precisely control the structure and arrangement of in an ultrathin silicon membrane. Because these fabrication methods have been around for decades, the costs and design complexities were minimized. Moreover, the size and location of the pores could be precisely controlled.

Oct 11, 2022

Cyborg cockroaches are coming, and they just want to help

Posted by in categories: climatology, cyborgs, robotics/AI, space, sustainability

Inspired by insects, robotic engineers are creating machines that could aid in search and rescue, pollinate plants and sniff out gas leaks.

Cyborg cockroaches that find earthquake survivors. A “robofly” that sniffs out gas leaks. Flying lightning bugs that pollinate farms in space.

These aren’t just buzzy ideas, they’re becoming reality.

Continue reading “Cyborg cockroaches are coming, and they just want to help” »

Oct 9, 2022

One Florida community built to weather hurricanes endured Ian with barely a scratch

Posted by in categories: climatology, habitats

BABCOCK RANCH, Fla. — Like many others in Southwest Florida, Mark Wilkerson seemingly gambled his life by choosing to shelter at home rather than evacuate when Hurricane Ian crashed ashore last week as a Category 4 storm.

But it wasn’t just luck that saved Wilkerson and his wife, Rhonda, or prevented damage to their well-appointed one-story house. You might say that it was all by design.

…and yes it’s 30 miles inland, as that’s part of the design, with many more innovations.

Continue reading “One Florida community built to weather hurricanes endured Ian with barely a scratch” »

Oct 8, 2022

The clouds of Venus may be habitable — a crewed flyby could confirm the theory

Posted by in categories: biological, climatology, space

What we know about Venus so far has been gathered from several past probes.


With a slightly smaller diameter than Earth, Venus orbits closer to the Sun. This means that any water on the surface would have evaporated shortly after its formation, starting its greenhouse effect. Early and sustained volcanic eruptions created lava plains and increased the carbon dioxide in the atmosphere — starting the runaway greenhouse effect, which increased the temperature from just a little higher than Earth’s to its current high value of 475°C.

While Venus’s year is shorter than ours (225 days), its rotation is very slow (243 days) and “retrograde” — the other way round to Earth. The slow rotation is related to a lack of magnetic field, resulting in a continuing loss of atmosphere. Venus’ atmosphere “super-rotates” faster than the planet itself. Images from many missions show V-shaped patterns of clouds composed of sulphuric acid droplets.

Continue reading “The clouds of Venus may be habitable — a crewed flyby could confirm the theory” »

Oct 6, 2022

Study shows gravitational forces deep within Earth have great impact on landscape evolution

Posted by in categories: climatology, evolution

#Evolution #History Of Earth#Nature Communications#Gravitational Forces#Stony Brook University#Columbia University

Oct 6, 2022

Engineers created a safe micro-nuclear reactor that fits in the back of a truck

Posted by in categories: climatology, nuclear energy, sustainability

The new system uses molten salts instead of traditional fuel rods.

The world is rethinking nuclear power plants in the face of climate change. Your average plant produces 8,000 times more power than fossil fuels and is environmentally friendly. There’s one massive caveat, though, in the form of nuclear disasters, such as the 1986 Chernobyl incident and the 2011 Fukushima disaster.

Now, professor Matthew Memmott and colleagues from Bingham Young University (BYU) announced that they designed a new molten salt micro-reactor system that allows for safer nuclear energy production. As per a press release, it may also solve a number of other key issues related to nuclear energy production.

Continue reading “Engineers created a safe micro-nuclear reactor that fits in the back of a truck” »

Oct 5, 2022

The “Pore Space” Race Has Begun

Posted by in categories: climatology, sustainability

The energy industry is looking to carbon capture and sequestration to mitigate climate change. That means finding lots of pore space.


They will need thousands of these underground sites to store tens of millions of tons of CO2 to help mitigate climate change.

Oct 5, 2022

As winters warm, nutrient pollution threatens 40 percent of US

Posted by in categories: climatology, sustainability

Scientists are ringing alarm bells about a significant new threat to U.S. water quality: as winters warm due to climate change, they are unleashing large amounts of nutrient pollution into lakes, rivers, and streams.

The first-of-its-kind national study finds that previously frozen nutrient pollution—unlocked by rising and rainfall—is putting at risk in 40% of the contiguous U.S., including over 40 states.

Nutrient runoff into rivers and lakes—from phosphorus and nitrogen in fertilizers, manure, , and more—has affected quality for decades. However, most research on nutrient runoff in snowy climates has focused on the growing season. Historically, and a continuous snowpack froze nutrients like nitrogen and phosphorous in place until the watershed thawed in the spring, when plants could help absorb excess nutrients.

Oct 3, 2022

MIT Engineers Build Wireless Underwater Camera That Doesn’t Need Batteries!

Posted by in categories: climatology, space, sustainability

New underwater camera could help scientists explore unknown regions of the ocean, track pollution, or monitor the effects of climate change.

More than 95 percent of Earth’s oceans have never been observed, according to estimates by scientists, which means we have seen less of our planet’s ocean than we have the far side of the moon or the surface of Mars.

Mars is the second smallest planet in our solar system and the fourth planet from the sun. It is a dusty, cold, desert world with a very thin atmosphere. Iron oxide is prevalent in Mars’ surface resulting in its reddish color and its nickname “The Red Planet.” Mars’ name comes from the Roman god of war.

Page 52 of 149First4950515253545556Last