Dive into the mysterious history of the McRib with the folks from Weird History Food! From its beginnings in the early 1980s to the sweet memories it left behind, this episode uncovers the secrets behind McDonald’s iconic creation. Tune in for a saucy backstory on this Golden Arches legend!
Plant Signaling [Comic]
Every Logical Fallacy Explained in 11 Minutes
https://youtu.be/pCg-SNOteQQ?si=8lLSGRh11_FqNcnC
Every Famous Logical Fallacy gets explained in 11 minutes by The Paint Explainer.
— TIMESTAMPS —
0:00 Ad Hominem
0:09 Hasty Generalization
0:18 Red Herring
0:26 Tu QuoQue
0:41 Slippery Slope
0:53 Special Pleading
1:07 Loaded Question
1:12 False Dilemma
1:26 Strawman
1:31 Circular Reasoning
1:43 Appeal to Authority
1:52 Appeal to Nature
2:07 Composition Fallacy
2:14 Division Fallacy
2:22 Affirming the Consequent
2:39 Anecdotal Fallacy
2:47 Appeal to Emotion
2:56 Burden of Proof Fallacy
3:08 No True Scotsman
3:15 Texas Sharpshooter
3:33 Suppressed Correlative
3:51 Personal Incredulity
3:58 Ambiguity Fallacy
4:06 Genetic Fallacy
4:14 Middle-Ground Fallacy
4:19 Affirming the Disjunct
4:30 Appeal to Tradition
4:36 Sunk Cost Fallacy
4:46 Appeal to Ignorance
4:55 Continuum Fallacy
5:06 Equivocation
5:14 Faulty Analogy
5:21 Denying the Antecedent
5:33 False Cause
5:42 Definist Fallacy
5:49 Ecological Fallacy
5:56 Etymological Fallacy
6:04 Quoting out of Context
6:15 False Equivalence
6:22 Historian’s Fallacy
6:32 Inflation of Conflict
6:40 Incomplete Comparison
6:47 Ludic Fallacy
7:05 Moralistic Fallacy
7:13 Nirvana Fallacy
7:23 Proof by Assertion
7:40 Cherry Picking
7:51 Psychologist’s Fallacy
8:00 Reification Fallacy
8:13 Retrospective Determinism
8:21 Thought Terminating Cliché
8:30 Fallacy of the single cause
8:40 Appeal to the Stone
8:48 Ignoratio Elenchi
9:00 Circumnstantial ad Hominem
9:07 Tone Policing
9:15 Association Fallacy
9:24 Appeal to Accomplishment
9:32 Courtier’s Reply
9:41 Appeal to Consequences
9:50 Appeal to Novelty
9:57 Bulverism
10:03 Chronological Snobbery
10:13 Entitled to my Opinion Fallacy
10:22 Two wrongs make a right
10:28 Vacuous Truth
10:36 Fallacy Fallacy
The Everything Bagel [Comic]
Get the Complete CYBERPUNK Red & Classic RPG Megabundle for just $18 intead of $259! (And Support Charity!)
Calling all Solos, Netrunners, and Rockerboys!
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Mechanical Engineer Answers Car Questions From The Internet
Mechanical engineer and Stanford professor Chris Gerdes answers the internet’s automotive questions. Why aren’t solar powered cars a thing yet? How do self-driving cars see? How can Teslas crash when on auto-pilot? Is hacking a big threat to autonomous cars? Chris answers all these questions and much more!
[Wired]
Trampoline Suspended from Hot Air Balloon Takes Skydiving to New Heights
Get ready for the thrill of a lifetime with “The Great Trampoline in the Sky”! Join Jay Alvarrez and his skydiver friends as they bounce on a trampoline suspended beneath a hot air balloon. Cameras, parachutes, and a drone capture the heart-stopping action. The only casualty? A soccer ball finding a new home on Earth. Watch if you dare!
Chickens vs. Chicks: Comedian and Crew Perfect Poultry Dance Moves [Video]
Watch as comedian Smac McCreanor and her pals, Ardyn, Kristi, and Malia, don the feathers of ilgallinaio_special’s bouncy chickens and groove along to their contagious rhythm.
Today’s Hottest Deals: Samsung 128GB USB-C Flash Drive, OtterBox Phone Cases and Accessories, YA Novels, Big Game Essentials, and MORE!
For today’s edition of “Deal of the Day,” here are some of the best deals we stumbled on while browsing the web this morning! Please note that Geeks are Sexy might get a small commission from qualifying purchases done through our posts. As an Amazon Associate, I earn from qualifying purchases.
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Lunar science is entering a new active phase, with commercial launches of landers that will study solar wind and peer into the universe’s dark ages
Jack Burns, University of Colorado Boulder
For the first time since 1972, NASA is putting science experiments on the Moon in 2024. And thanks to new technologies and public-private partnerships, these projects will open up new realms of scientific possibility. As parts of several projects launching this year, teams of scientists, including myself, will conduct radio astronomy from the south pole and the far side of the Moon.
NASA’s commercial lunar payload services program, or CLPS, will use uncrewed landers to conduct NASA’s first science experiments from the Moon in over 50 years. The CLPS program differs from past space programs. Rather than NASA building the landers and operating the program, commercial companies will do so in a public-private partnership. NASA identified about a dozen companies to serve as vendors for landers that will go to the Moon.
NASA buys space on these landers for science payloads to fly to the Moon, and the companies design, build and insure the landers, as well as contract with rocket companies for the launches. Unlike in the past, NASA is one of the customers and not the sole driver.
CLPS launches
The first two CLPS payloads are scheduled to launch during the first two months of 2024. There’s the Astrobotics payload, which launched Jan. 8 before experiencing a fuel issue that cut its journey to the Moon short. Next, there’s the Intuitive Machines payload, with a launch scheduled for mid-February. NASA has also planned a few additional landings – about two or three per year – for each of the next few years.
I’m a radio astronomer and co-investigator on NASA’s ROLSES program, otherwise known as Radiowave Observations at the Lunar Surface of the photoElectron Sheath. ROLSES was built by the NASA Goddard Space Flight Center and is led by Natchimuthuk Gopalswamy.
The ROLSES instrument will launch with Intuitive Machines in February. Between ROLSES and another mission scheduled for the lunar far side in two years, LuSEE-Night, our teams will land NASA’s first two radio telescopes on the Moon by 2026.
Radio telescopes on the Moon
The Moon – particularly the far side of the Moon – is an ideal place to do radio astronomy and study signals from extraterrestrial objects such as the Sun and the Milky Way galaxy. On Earth, the ionosphere, which contains Earth’s magnetic field, distorts and absorbs radio signals below the FM band. These signals might get scrambled or may not even make it to the surface of the Earth.
On Earth, there are also TV signals, satellite broadcasts and defense radar systems making noise. To do higher sensitivity observations, you have to go into space, away from Earth.
The Moon is what scientists call tidally locked. One side of the Moon is always facing the Earth – the “man in the Moon” side – and the other side, the far side, always faces away from the Earth. The Moon has no ionosphere, and with about 2,000 miles of rock between the Earth and the far side of the Moon, there’s no interference. It’s radio quiet.
For our first mission with ROLSES, launching in February 2024, we will collect data about environmental conditions on the Moon near its south pole. On the Moon’s surface, solar wind directly strikes the lunar surface and creates a charged gas, called a plasma. Electrons lift off the negatively charged surface to form a highly ionized gas.
This doesn’t happen on Earth because the magnetic field deflects the solar wind. But there’s no global magnetic field on the Moon. With a low frequency radio telescope like ROLSES, we’ll be able to measure that plasma for the first time, which could help scientists figure out how to keep astronauts safe on the Moon.
When astronauts walk around on the surface of the Moon, they’ll pick up different charges. It’s like walking across the carpet with your socks on – when you reach for a doorknob, a spark can come out of your finger. The same kind of discharge happens on the Moon from the charged gas, but it’s potentially more harmful to astronauts.
Solar and exoplanet radio emissions
Our team is also going to use ROLSES to look at the Sun. The Sun’s surface releases shock waves that send out highly energetic particles and low radio frequency emissions. We’ll use the radio telescopes to measure these emissions and to see bursts of low-frequency radio waves from shock waves within the solar wind.
We’re also going to examine the Earth from the surface of the Moon and use that process as a template for looking at radio emissions from exoplanets that may harbor life in other star systems.
Magnetic fields are important for life because they shield the planet’s surface from the solar/stellar wind.
In the future, our team hopes to use specialized arrays of antennas on the far side of the Moon to observe nearby stellar systems that are known to have exoplanets. If we detect the same kind of radio emissions that come from Earth, this will tell us that the planet has a magnetic field. And we can measure the strength of the magnetic field to figure out whether it’s strong enough to shield life.
Cosmology on the Moon
The Lunar Surface Electromagnetic Experiment at Night, or LuSEE-Night, will fly in early 2026 to the far side of the Moon. LuSEE-Night marks scientists’ first attempt to do cosmology on the Moon.
LuSEE-Night is a novel collaboration between NASA and the Department of Energy. Data will be sent back to Earth using a communications satellite in lunar orbit, Lunar Pathfinder, which is funded by the European Space Agency.
Since the far side of the Moon is uniquely radio quiet, it’s the best place to do cosmological observations. During the two weeks of lunar night that happen every 14 days, there’s no emission coming from the Sun, and there’s no ionosphere.
We hope to study an unexplored part of the early universe called the dark ages. The dark ages refer to before and just after the formation of the very first stars and galaxies in the universe, which is beyond what the James Webb Space Telescope can study.
During the dark ages, the universe was less than 100 million years old – today the universe is 13.7 billion years old. The universe was full of hydrogen during the dark ages. That hydrogen radiates through the universe at low radio frequencies, and when new stars turn on, they ionize the hydrogen, producing a radio signature in the spectrum. Our team hopes to measure that signal and learn about how the earliest stars and galaxies in the universe formed.
There’s also a lot of potential new physics that we can study in this last unexplored cosmological epoch in the universe. We will investigate the nature of dark matter and early dark energy and test our fundamental models of physics and cosmology in an unexplored age.
That process is going to start in 2026 with the LuSEE-Night mission, which is both a fundamental physics experiment and a cosmology experiment.
Jack Burns, Professor of Astrophysical and Planetary Sciences, University of Colorado Boulder
This article is republished from The Conversation under a Creative Commons license. Read the original article.