We can expect to the latest and greatest in gaming and computer hardware, audio visual, electric vehicles and smart home technologies.
Both the European Space Agency and NASA are planning to test even more sensitive sensors on future moon missions to try and hone in on satellite signals. If they can truly connect with sats back home, we could get closer to achieving autonomous moon travel. But eventually that won’t be enough. To help direct humans on the lunar surface, we’re going to need a fleet of satellites specifically around the moon. NASA calls its project LunaNet, and it’s part of the Gateway space station, which is the culmination of America’s plan to return to the moon. It needs to be designed to play well with ESA technology and, eventually, will be the source of high-speed internet on the moon.
Artemis I launched back in November, rounded the moon just 81 miles above the lunar surface and touched down Earth-side in December. Artemis II, which will carry astronauts around the moon in a similar trajectory, is slated to launch in late 2024, according to Space.com. Artemis III, which will be humanity’s first boots on the moon since 1972, could launch as early as 2025.
Ray Kurzweil, an American Jewish inventor and futurist, claims that within ten years, man will be able to defeat old age and death thanks to the accelerated development of technology.
My question in relation to Kurzweil’s statement is: What is so good about us constantly living all the time? Why live at all if we are never to die?
On the contrary, if we attain the purpose of our lives while we are alive, then we will reach a spiritual, eternal, and perfect state, i.e. one where we will have no feeling of a lack. In our current lives, we constantly live out of feeling lack and the need to fulfill our lacks. However, we can reach a state where we have no such feeling of a lack, but that we have an abundance of everything.
Developing ourselves spiritually has nothing to do with medicine or technology. It has to do with our inner world, i.e. with how we feel that we can give and receive from everyone, and live in a world that is boundless, with no beginning or end. Then, even if our bodies die, we will not feel it as death.
In this episode, David and Peter discuss aging as a disease, the technology needed to reverse aging, and tips and tricks to increase your lifespan.
David Sinclair is a biologist and academic known for his expertise in aging and epigenetics. Sinclair is a genetics professor and the Co-Director of Harvard Medical School’s Paul F. Glenn Center for Biology of Aging Research. He’s been included in Time100 as one of the 100 Most Influential People in the World, and his research has been featured all over the media. Besides writing a New York Times Best Seller, David has co-founded several biotech companies, a science publication called Aging, and is an inventor of 35 patents.
Read David’s book, Lifespan: Why We Age-and Why We Don’t Have To: https://a.co/d/85H3Mll.
This episode is brought to you by Levels: real-time feedback on how diet impacts your health. https://levels.link/peter.
Consider a journey to optimize your mind and body by visiting http://mylifeforce.com/peter.
Nature Biotechnology
Posted in bioengineering, biotech/medical, food
Is a monthly journal publishing new concepts in biological technology of relevance to bioengineering, medicine, energy, agriculture, food…
An engine idea that can accelerate to 99 percent of the speed of light, all without the need for propellant. That may sound like something out of a science fiction movie, but it’s not. This is exactly what one of NASA engineers is developing, and it promises to break the law of physics.
How will these engines be developed? If it is going to work without propellant, then what will be its fuel? And most importantly, will a human be able to travel in a vehicle with such an engine as its thruster? Well, we will find out in just a second.
Electronic measurements can determine entropy in quantum dots and single molecules — a measurement that has been historically difficult to perform.
As science fiction would have you believe, you can’t really go to “another dimension.” Dimensions are more about how we see the world. But some things point to not just one, but two dimensions of time, according to one expert. If it were true, the theory could fix the biggest problem in physics, which is that quantum mechanics and general relativity don’t agree with each other.
Itzhak Bars from the University of Southern California in Los Angeles says that’s the case. Up, down, left, right, forward, back, and space-time are the normal three dimensions. In Bars’s theory, time is not a straight line. Instead, it is a curved 2D plane that is woven into all of these dimensions and more.
Dr. Bars has been working on “two-time physics” for more than ten years. All of this started when he started to wonder what time has to do with gravity and other forces. Even though the idea of more dimensions sounds strange, more and more physicists are thinking about it because it could help create the “theory of everything” or “unified theory of physics” that everyone wants. This would put all of the basic forces of the universe into a single, simple math equation.
Year 2022 😗
Plastic foam like Styrofoam is a ubiquitous, harmful and nearly immortal single-use material that is long overdue for a good, green replacement — and Cruz Foam is here to supply it. The startup creates a durable yet backyard-compostable packing foam out of shrimp shells produced (and discarded) by the seafood industry. It recently extended its seed round to accommodate the interests of Leonardo DiCaprio and Ashton Kutcher, and is scaling up to meet the demands of its first major customer, Whirlpool.
I met Cruz Foam co-founder John Felts during the memorable Accelerator at Sea hosted by the Sustainable Ocean Alliance. His pitch made perfect sense: create a biodegradable alternative to expanded polystyrene (EPS) foam using a material provided in abundance by nature.
This material, chitin, makes up the shells of shrimp, crabs and other crustaceans in and out of the sea. It’s tough and versatile but, like any part of a living creature, decomposes quickly and safely. Best of all, it’s produced in enormous quantities by the seafood industry — there are really almost no uses for the stuff, so thousands of tons of shells pile up outside shrimp processing plants, most of which ends up going to landfills. People are literally paying someone else to take this stuff.