Menu

Blog

Page 8157

Nov 13, 2019

Morgan Stanley: Don’t underestimate the economic importance of launching people into space

Posted by in categories: economics, satellites

Investors shouldn’t underestimate the importance of launching people into space, Morgan Stanley said in a research report released Tuesday.

The Wall Street investment bank expects communication satellites, Earth observation technology and transportation to be the economic drivers of a space economy, but investors should not underestimate human space exploration as a “critical enabler of public will.”

Nov 13, 2019

Inside a Martian Habitat Factory in New York City

Posted by in categories: 3D printing, habitats, space

Inside the strange world of 3D printing Martian homes.

Nov 13, 2019

NASA’s Helical Engine Design that Uses Closed-Cycle Propellant; A Proposed Stardrive that May Enable Interstellar Travel

Posted by in categories: energy, engineering, quantum physics, space, transportation

Twentieth Century technology has relied on the use of fuels and chemical propellants to propel our ships, planes, and cars. The propulsion technology of the future will not use chemical combustion to produce thrust, and the 21st century will see the emergence of propellant-less propulsion systems. Such technologies will provide the means to travel faster than ever before at a fraction of current costs and with no pollution by-products.

This becomes absolutely crucial for interplanetary and interstellar travel, as we have stated before in RSF commentary1 reporting on Resonance-based technology may provide inertial mass reduction—the future of space travel will not be performed with chemical propellants. As an example, to date the most viable proposal for an interstellar mission with current technological capabilities is the Breakthrough Starshot project which will use a fleet of light sail probes propelled to 20% percent the speed of light via laser pulses.

Considering the significant limitations of combustion-based propulsion (as well as the harmful environmental impacts), there is a strong drive to develop the next-generation propulsion systems that will move us into the next phase of technological advancement. Torus Tech, a research and development company founded by Nassim Haramein, the founder of the Resonance Science Foundation, is researching quantum vacuum engineering technologies that will enable gravitational control and zero-point energy production.

Nov 13, 2019

Double Down

Posted by in categories: cosmology, physics

Stars explode. But how?

A recent press release asks, “What happens when a star explodes?” The answer, not surprisingly, is, “…the same thing that happens when gas explodes here on Earth.”

The Electric Universe agrees with modern physics: a supernova is an exploding star. However, there is much more to the story that involves plasma. Electricity flowing through plasma creates regions of charge separation isolated by double layers. Could charge separation be the foundation for supernovae?

Nov 13, 2019

EXCLUSIVE — SAFIRE Contacted me in RESPONSE to my REACTION video to ANSWER MY QUESTIONS!

Posted by in category: futurism

When I created my reaction video to the SAFIRE video I based mostly of my analysis on their released video. I made some extrapolations and requested that they release the information as quickly as possible. The Safire team even viewed the video and liked my unbiased analysis and wanted to arrange a call to discuss this and help answer my questions and cover any misconceptions I may have had. This video is my analysis of that conversation as well as the unedited version of it. It has certainly answered a lot of my questions and yes there are still many questions to be answered but to be fair even they don’t know the answer to all of these questions.

Link to my REACTION video:

Continue reading “EXCLUSIVE — SAFIRE Contacted me in RESPONSE to my REACTION video to ANSWER MY QUESTIONS!” »

Nov 13, 2019

King of the Gods

Posted by in categories: particle physics, space travel

NASA launched the Juno mission to Jupiter on August 5, 2011. After a five-year flight, the spacecraft entered orbit on July 4, 2016.

Jupiter is the largest planet in the Solar System, with an equatorial diameter of 142,984 kilometers. It is so large that it could contain all of the other planets within its volume. Since Jupiter rotates in a mere 9.925 hours, its equatorial diameter is more than 9275 kilometers greater than the distance between its poles.

Continue reading “King of the Gods” »

Nov 13, 2019

An Electric Motor That Works in Any Classic Car

Posted by in categories: sustainability, transportation

Anyone who’s owned a vintage car can tell you—and boy, will they tell you—how much time, money, and maintenance is required to keep their baby running. And don’t forget the gasoline, garage oil puddles, or tailpipe pollution involved.

A California startup may have the answer: A plug-and-play innovative motor to convert that finicky old gas-guzzler into an electric car. Eric Hutchison and Brock Winberg first gained attention by rescuing a moldering, V-8-powered 1978 Ferrari 308—you may know it as the model that “Magnum: P.I.” drove on TV—and transforming it into an electric marvel. Now, the co-founders of Electric GT have developed a DIY, electric “crate motor” that will let traditional gearheads or EV fans do the same.

“A lot of guys go out for a weekend in a classic car that’s 40 or 50 years old, but they get a ride home with AAA; it ends up being a one-way trip,” Hutchison says. “Here, you’re taking out 95 percent of the maintenance, which is the biggest problem with classic cars. So this is for enthusiasts who love their cars, but want a fun, reliable car that’s good for 100 or 125 miles on a weekend drive.”

Nov 13, 2019

24-Hour Solar Energy: Molten Salt Makes It Possible, and Prices Are Falling Fast

Posted by in categories: solar power, sustainability

Molten salt storage in concentrated solar power plants could meet the electricity-on-demand role of coal and gas, allowing more old, fossil fuel plants to retire.

By Robert Dieterich

Nov 13, 2019

Multimaterial 3D printing manufactures complex objects, fast

Posted by in categories: 3D printing, engineering, physics

3D printers are revolutionizing manufacturing by allowing users to create any physical shape they can imagine on-demand. However, most commercial printers are only able to build objects from a single material at a time and inkjet printers that are capable of multimaterial printing are constrained by the physics of droplet formation. Extrusion-based 3D printing allows a broad palette of materials to be printed, but the process is extremely slow. For example, it would take roughly 10 days to build a 3D object roughly one liter in volume at the resolution of a human hair and print speed of 10 cm/s using a single-nozzle, single-material printhead. To build the same object in less than 1 day, one would need to implement a printhead with 16 nozzles printing simultaneously!

Now, a new technique called multimaterial multinozzle 3D (MM3D) printing developed at Harvard’s Wyss Institute for Biologically Inspired Engineering and John A. Paulson School of Engineering and Applied Sciences (SEAS) uses high-speed pressure valves to achieve rapid, continuous, and seamless switching between up to eight different printing materials, enabling the creation of complex shapes in a fraction of the time currently required using printheads that range from a single nozzle to large multinozzle arrays. These 3D printheads themselves are manufactured using 3D printing, enabling their rapid customization and facilitating adoption by others in the fabrication community. Each nozzle is capable of switching materials at up to 50 times per second, which is faster than the eye can see, or about as fast as a hummingbird beats its wings. The research is reported in Nature.

“When printing an object using a conventional extrusion-based 3D printer, the time required to print it scales cubically with the length of the object, because the printing nozzle has to move in three dimensions rather than just one,” said co-first author Mark Skylar-Scott, Ph.D., a Research Associate at the Wyss Institute. “MM3D’s combination of multinozzle arrays with the ability to switch between multiple inks rapidly effectively eliminates the time lost to switching printheads and helps get the scaling law down from cubic to linear, so you can print multimaterial, periodic 3D objects much more quickly.”

Nov 13, 2019

Evolution can reconfigure gene networks to deal with environmental change

Posted by in categories: biotech/medical, evolution, genetics

Scientists at the University of Birmingham have unravelled the genetic mechanisms behind tiny waterfleas’ ability to adapt to increased levels of phosphorus pollution in lakes.

By mapping networks of to the physiological responses of ancient and modern waterfleas (Daphnia), the researchers, based in the University’s School of Biosciences, were able to show that a cluster of over 800 genes, many of them involved in , evolved to become “plastic”, or flexible.

This allows the modern Daphnia to adjust its gene expression according to the amount of phosphorus present in the environment. This is particularly fascinating as their 700-year-old ancestors were incapable of such a plastic response.