Speaking of “Doot Doot” season, Amazon currently has some BIG sales on Halloween costumes at these links:
–Up to 53% off on Rubies Costumes (A LOT of costumes from many pop culture franchises!)
–Up to 52 % Off on Sexy Costumes from Leg Avenue
[Source: @idiotoftheeast]
Please note that Geeks are Sexy might get a small commission from qualifying purchases done through our posts (as an Amazon associate or a member of other affiliate programs.)
If you’ve ever reached for an over-the-counter decongestant in the past couple of decades, there’s a good chance it contained phenylephrine as its primary active ingredient. But here’s the catch: Phenylephrine doesn’t work any better than a placebo. So, why is it still available for sale? Vox’s Phil Edwards delves into this perplexing issue in a recent video, shedding light on the complex history behind the FDA’s regulation of over-the-counter medicines. This investigation highlights the need for a reevaluation of regulations governing over-the-counter drugs and underscores the importance of informed consumer choices in the realm of self-medication.
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 or a member of other affiliate programs. As an Amazon Associate, I earn from qualifying purchases. As an Amazon Associate, I earn from qualifying purchases.)
–Kluster Fun STEM Table Top Magnet Game – $25.00 $20.00
–Azul Board Game – Strategic Tile-Placement Game – $39.99 $19.19
–Splendor Strategy Board Game – $44.99 $21.59
–2-PACK: Right Angle USB C Charger Cable (100W, 6FT) – $14.99 $8.99
–EBL Portable Power Station (2400W, 1843.2Wh) – Can power a typical desktop PC for around 6 hours! – $1399.00 $1049 (Clip Coupon at the Link!)
–Google Nest WiFi Pro Mesh Routers – (3-PACK) – $399.99 $299.99
–Microsoft Office Professional 2021 for Windows: Lifetime License – $219.99 $32.97
–Microsoft Office Home & Business for Mac 2021: Lifetime License – $219.99 $32.97
–Harry Potter 12-inch Spellbinding Harry Potter Magic Wand – $14.99 $11.99
–Harry Potter 12-inch Spellbinding Hermione Granger Magic Wand – $15.99 $11.99
–Black+Decker Deluxe Vacuum Sealer with 50 Bags – $50 $24.99
Artemis Spyrou, Michigan State University; Katharina Domnanich, Michigan State University, and Sean Liddick, Michigan State University
Each October, the Nobel Prizes celebrate a handful of groundbreaking scientific achievements. And while many of the awarded discoveries revolutionize the field of science, some originate in unconventional places. For George de Hevesy, the 1943 Nobel Laureate in chemistry who discovered radioactive tracers, that place was a boarding house cafeteria in Manchester, U.K., in 1911.
De Hevesey had the sneaking suspicion that the staff of the boarding house cafeteria where he ate at every day was reusing leftovers from the dinner plates – each day’s soup seemed to contain all of the prior day’s ingredients. So he came up with a plan to test his theory.
At the time, de Hevesy was working with radioactive material. He sprinkled a small amount of radioactive material in his leftover meat. A few days later, he took an electroscope with him to the kitchen and measured the radioactivity in the prepared food.
His landlady, who was to blame for the recycled food, exclaimed “this is magic” when de Hevesy showed her his results, but really, it was just the first successful radioactive tracer experiment.
We are a team of chemists and physicists who work at the Facility for Rare Isotope Beams, located at Michigan State University. De Hevesy’s early research in the field has revolutionized the way that modern scientists like us use radioactive material, and it has led to a variety of scientific and medical advances.
A year before conducting his recycled ingredients experiment, Hungary-born de Hevesy had traveled to the U.K. to start work with nuclear scientist Ernest Rutherford, who’d won a Nobel Prize just two years prior.
Rutherford was at the time working with a radioactive substance called radium D, a valuable byproduct of radium because of its long half-life (22 years). However, Rutherford couldn’t use his radium D sample, as it had large amounts of lead mixed in.
When de Hevesy arrived, Rutherford asked him to separate the radium D from the nuisance lead. The nuisance lead was made up of a combination of stable isotopes of lead (Pb). Each isotope had the same number of protons (82 for lead), but a different number of neutrons.
De Hevesy worked on separating the radium D from the natural lead using chemical separation techniques for almost two years, with no success. The reason for his failure was that, unknown to anyone at the time, radium D was actually a different form of lead – namely the radioactive isotope, or radioisotope Pb-210.
Nevertheless, de Hevesy’s failure led to an even bigger discovery. The creative scientist figured out that if he could not separate radium D from natural lead, he could use it as a tracer of lead.
Radioactive isotopes, like Pb-210, are unstable isotopes, which means that over time they will transform into a different element. During this transformation, called radioactive decay, they typically release particles or light, which can be detected as radioactivity.
This radioactivity acts as a signature indicating the presence of the radioactive isotope. This critical property of radioisotopes allows them to be used as tracers.
A tracer is a substance that stands out in a crowd of similar material because it has unique qualities that make it easy to track.
For example, if you have a group of kindergartners going on a field trip and one of them is wearing a smartwatch, you can tell if the group went to the playground by tracking the GPS signal on the smartwatch. In de Hevesy’s case, the kindergartners were the lead atoms, the smart watch was radium D, and the GPS signal was the emitted radioactivity.
In the 1910s, the Vienna Institute of Radium Research had a larger collection of radium and its byproducts than any other institution. To continue his experiments with radium D, de Hevesy moved to Vienna in 1912.
He collaborated with Fritz Paneth, who had also attempted the impossible task of separating radium D from lead without success. The two scientists “spiked” samples of different chemical compounds with small amounts of a radioactive tracer. This way they could study chemical processes by tracking the movement of the radioactivity across different chemical reactions
De Hevesy continued his work studying chemical processes using different isotopic markers for many years. He even was the first to introduce nonradioactive tracers. One nonradioactive tracer he studied was a heavier isotope of hydrogen, called deuterium. Deuterium is 10,000 times less abundant than common hydrogen, but is roughly twice as heavy, which makes it easier to separate the two.
De Hevesy and his co-author used deuterium to track water in their bodies. In their investigations, they took turns ingesting samples and measuring the deuterium in their urine to study the elimination of water from the human body.
De Hevesy was awarded the 1943 Nobel Prize in chemistry “for his work on the use of isotopes as tracers in the study of chemical processes.”
More than a century after de Hevesy’s experiments, many fields now routinely use radioactive tracers, from medicine to materials science and biology.
These tracers can monitor the progression of disease in medical procedures, the uptake of nutrients in plant biology, the age and flow of water in aquifers and the measurement of wear and corrosion of materials, among other applications. Radioisotopes allow researchers to follow the paths of nutrients and drugs in living systems without invasively cutting the tissue.
In modern research, scientists focus on producing new isotopes and on developing procedures to use radioactive tracers more efficiently. The Facility for Rare Isotope Beams, or FRIB, where the three of us work, has a program dedicated to the production and harvesting of unique radioisotopes. These radioisotopes are then used in medical and other applications.
FRIB produces radioactive beams for its basic science program. In the production process, a large number of unused isotopes are collected in a tank of water, where they can be later isolated and studied.
One recent study involved the isolation of the radioisotope Zn-62 from the irradiated water. This was a challenging task considering there were 100 quadrillion times more water molecules than Zn-62 atoms. Zn-62 is an important radioactive tracer utilized to follow the metabolism of zinc in plants and in nuclear medicine.
Eighty years ago, de Hevesy managed to take a dead-end separation project and turn it into a discovery that created a new scientific field. Radioactive tracers have already changed human lives in so many ways. Nevertheless, scientists are continuing to develop new radioactive tracers and find innovative ways to use them.
Artemis Spyrou, Professor of Nuclear Physics, Michigan State University; Katharina Domnanich, Assistant Professor of Chemistry, Michigan State University, and Sean Liddick, Associate Professor of Chemistry, Michigan State University
This article is republished from The Conversation under a Creative Commons license. Read the original article.
[Source: Tommy Siegel on Instagram]
In a triumph of scientific artistry, a 48-hour time-lapse film showcasing the development of neurons in the central nervous system of a chick embryo has emerged as the grand winner in the prestigious Nikon Small World in Motion video competition. Filmed by Alexandre Dumoulin of the University of Zurich, Switzerland, this captivating footage offers a glimpse into the intricate world of neurobiology.
The Nikon Small World competition, an annual celebration of microscopic wonders, showcases the pinnacle of microscopy images and videos, many of which emerge from actual scientific research. This year’s winning entries include a portrayal of blood flow in fish, an exploration of human cells infected by SARS-CoV-2, a microscopic safari into the realm of pond creatures, and an up-close encounter with the rhythmic pulse of a beating zebrafish heart.
[Via Neatorama]
[Source: @war.and.peas]
Quebec Comiccon 2023 has come and gone, leaving behind a trail of unforgettable memories and incredible cosplay moments. Geeks are Sexy, your go-to blog for all things geek and pop culture, was on the scene to capture the magic of this year’s event. With over 22,000 visitors, this convention once again proved that the passion for geekdom knows no bounds.
One of the highlights of any comic convention is undoubtedly the cosplay, and Quebec Comiccon 2023 did not disappoint. Dedicated fans from all over came together to showcase their love for their favorite characters in the most spectacular way possible. Geeks are Sexy was on hand to capture the stunning costumes and creativity on display. From awesome group shots to intimate character portraits, our coverage is a testament to the dedication and talent of the cosplay community. So without further ado, here are our photos of the event! Oh, and be sure to check out our cosplay music video featuring Bad Lip Reading’s Seagulls! (Stop It Now) at the bottom of the post too!
@helamy1977 The cosplayers of Qc Comiccon dancing to @Bad Lip Reading « Seagulls!(Stop it now) » A big thank you for letting us use the song! #cosplay #mandalorian #ashoka #vikings #bane #catwoman #darkempire #scoobydoo #robinhood #borderlands #amidala #waluigi #dansunegalaxiepresdechezvous #jonlajoie @Jon Lajoie
[Source: Toonhole | Like Toonhole on Facebook | Follow Toonhole on Twitter]
