The biggest problem with drones right now is accountability. There are a lot of good FAA-licensed and unlicensed pilots who follow the rules to the letter, and that’s fine. But for the use of commercial drones to expand while there are still people who break the law — knowingly or without knowing what they’re doing — there will need to be a way to keep drone pilots accountable. Kittyhawk today released a white paper that details how UAS Remote ID will work and why it should be implemented in US airspace. Continue reading “Kittyhawk releases white paper on UAS Remote ID”→
It’s been a while since the last episode of the Tangible Tech podcast, and we have a good one for you. A lot of us are fascinated by the idea of self-driving cars, and in this episode your host Steve Sande looks into the present and future of this technology. Steve’s crystal ball is pointing towards the late 2020s before we see a lot of self-driving cars on the roads around the world, but in this podcast we look at the 5 levels of automation and what they entail…and what it’s going to take to get to Level 5.
Thanks for listening to Tangible Tech, and we’d like to ask you to share this episode with friends.
Most of planet Earth is covered by water, so it’s surprising there aren’t more underwater photos. Each year, there’s a competition to select the best underwater photographer and photos, and the winners are incredible.
Two pilots for Sir Richard Branson’s Virgin Galactic received astronaut badges yesterday signifying that they had reached space…although just for a few minutes.
The pilots, Mark “Forger” Stuckey and Frederick “C.J.” Sturckow, received their astronaut wings on February 7, 2019 at a ceremony at the US Department of Transportation Headquarters Building in Washington, DC. The wings honor the flight the two took in Virgin Galactic’s Spaceship Two craft VSS Unity on December 13th where they reached an altitude of 51.4 miles (82.7 km).
Nebulae are the gas and dust clouds that are ejected by stellar eruptions and explosions, and generally have a certain beauty about them. Back in 1847, the star Eta Carinae ejected a nebula that was nicknamed the Homunculus. Since then astronomers have photographed the nebula not only for its beauty, but because it provides information about its parent star. Astronomers now believe that within ten years or so, the nebula will be difficult to observe.
What’s causing the nebula to disappear? Well, the Homunculus will still be there, but Eta Carinae — a star that is of a type called a Luminous Blue Variable — is getting brighter and it will be almost impossible to make out the nebula. By 2036, it’s expected that the star will be ten times brighter than the nebula.
Is the star itself becoming more luminous? Not really. A team of astronomers led by Brazilian Augusto Damineli believes that the dust cloud that makes up the nebula is dissipating as seen from our vantage point, making the star appear brighter.
For amateur astronomers, there’s never been a better time to try to capture the beauty of the Homunculus nebula. Soon, it will be impossible to see it.
Remember the scene in Star Trek IV:The Voyage Home where Engineer Montgomery Scott divulges the formula for transparent aluminum to a manufacturer so the visitors from the future can get quantities of the material to use in bringing whales into space? Well, this isn’t as fun or useful, but a group of Oxford scientists have created a version of aluminum that is transparent to extreme ultraviolet radiation.
The team used a FLASH laser to knock out a core electron from every aluminum atom in a sample without disrupting the crystalline structure of the metal, which caused it to appear transparent to UV. The FLASH laser, located in Hamburg, Germany, is a new source of radiation that’s ten billion times brighter than any synchrotron and emits very short pulses of soft X-ray light that are more powerful than most electrical power plants.
The team focused that tremendous power onto an aluminum sample 1/20th the diameter of a human hair, rendering it transparent. Sadly, that effect only lasted 40 femtoseconds, but it’s showing that high power X-ray sources can be used to create new forms of matter.
Saturn’s rings are familiar to schoolchildren and adults alike, but recent analysis of data from the final days of the Cassini spacecraft shows that the rings are — geologically speaking — relatively new.
A team from the Sapienza University of Rome took data from 22 orbits of the Cassini spacecraft between Saturn and its rings, then performed a complex analysis of the gravitational pull from both the planet and the icy particles that form the rings.
What they found and published in the journal Science was that the rings have a mass of about 15 million trillion kilograms, which sounds like a lot until you realize that it’s only about 40% of the mass of Saturn’s moon Mimas or a trillionth of Earth’s mass. Based on the mass calculation and how much micrometeorite soot is falling onto the rings, the team believes the rings are anywhere from 10 to 100 million years old, with the data suggesting that the the higher number is more likely.
How the rings were formed is still a mystery. While some planetary scientists believe the rings were formed from a collision of several former moons, that theory doesn’t explain why the debris would have formed rings rather than clumping into new moons. The team thinks that Saturn may have gravitationally “caught” a comet or icy asteroid, which was then torn apart by gravitational forces and eventually formed the rings.
The rings are “only” expected to last another couple hundred million years.
You know me. I love me some drones. So when I received a PR blast today about the GDU SAGA industrial drone (AKA “light industrial UAV), I got pretty excited. This is not your run-of-the-mill photo drone; instead, it’s designed for:
Public security – search and rescue, border patrol inspection, fire fighting
Energy security – electric power inspection, oil and gas, equipment inspection
Construction – real estate, construction site mapping, building inspection
Agriculture – crop monitoring
GDU does this through a series of snap-on payloads and a 1 kilogram (2.2 lb.) lifting capacity. The payloads include a gimbal for a DSLR, a 4K camera, an infrared camera for crop or power line inspection, 10X and 30X optical zoom cameras, a megaphone, a floodlight, a gas detector module, and a drop module.
The company makes a point of noting that this is a “military quality” drone; in fact, there are multiple press photos showing Chinese military folks using them. I was just impressed that the damned thing can fly in the rain:
When you’re the world’s largest particle collider, you get used a lot in order to try to help scientists search for the bits and pieces that make up our universe. The Large Hadron Collider is located beneath the French-Swiss border, and is 17 miles (27 kilometers) long. Using strong magnets, the LHC accelerates particles to incredible speeds and smashes them together in an attempt to find fundamental particles that make up matter. In order to help in that search, the LHC shut down for upgrades on December 3 and won’t be back up and smashing particles until sometime in early 2021. Continue reading “CERN’s Large Hadron Collider taking a vacation until 2021”→