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Love Hormone Oxytocin Plays Key Role in Memory and Learning

Summary: Researchers uncovered the mechanisms by which oxytocin (OXT) influences learning and memory in animals. Their study utilized pharmacogenetic techniques to activate specific OXT neurons within the brain, assessing the impact on cognitive functions through tasks like the Novel Object Recognition Task (NORT).

The findings reveal that activating OXTergic neurons significantly enhances long-term object recognition memory, with notable activity observed in the brain’s supramammillary nucleus (SuM) and dentate gyrus. This groundbreaking research not only deepens our understanding of oxytocin’s role beyond social bonding but also suggests its potential in developing treatments for dementia.

Drexel University researchers develop AI-guided robotic structural inspection system

Researchers based at the Drexel University College of Engineering have devised a new method for performing structural safety inspections using autonomous robots aided by machine learning technology.

The article they published recently in the Elsevier journal Automation in Construction presented the potential for a new multi-scale monitoring system informed by deep-learning algorithms that work to find cracks and other damage to buildings before using LiDAR to produce three-dimensional images for inspectors to aid in their documentation.

The development could potentially work to benefit the enormous task of maintaining the health of structures that are increasingly being reused or restored in cities large and small across the country. Despite the relative age of America’s built environment, roughly two-thirds of today’s existing buildings will be in use in the year 2050, according to Gensler’s predictions.

Time and Quantum Mechanics SOLVED? | Lee Smolin

Lee Smolin joins TOE to discuss his work in theoretical physics, the dynamic nature of the laws of physics and the concept of time.

TIMESTAMPS:
00:00:00 — Intro.
00:04:13 — Doubly Special Relativity and Violation of Lorentz Invariance.
00:09:15 — The Concept of Thick Time.
00:19:11 — Duality Between String Theory and Loop Quantum Gravity.
00:23:50 — Condensed Matter Theory.
00:28:35 — Approximating by a Continuum and Discrete Sets.
00:34:11 — Misapprehensions about Loop Quantum Gravity.
00:38:43 — Defining Complexity and the View of the Universe by One Observer.
00:43:52 — Causal Energetic: The Relationship Between Varieties and Kinetic Energy.
00:48:38 — Varying Parameters in the Universe.
00:53:35 — The Bomes Interpretation of Quantum Mechanics.
00:58:30 — Causality and Relativity.
01:03:15 — Different Styles in Mathematics and Chess.
01:07:55 — The Fundamental Questions in Biology.
01:12:49 — Marrying Outside Your Field.
01:18:04 — Discussion on Authors and Novels.
01:23:35 — Conversations with Fire Robin.
01:28:39 — Being Sincere and Ambitious.
01:33:39 — A Visit from BJ
01:38:34 — Outro.

NOTE: The perspectives expressed by guests don’t necessarily mirror my own. There’s a versicolored arrangement of people on TOE, each harboring distinct viewpoints, as part of my endeavor to understand the perspectives that exist.

THANK YOU: To Mike Duffey for your insight, help, and recommendations on this channel.

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Continue reading “Time and Quantum Mechanics SOLVED? | Lee Smolin” | >

The Next Wave of Nanomaterials: Precision-Engineered Nanoscrolls

Janus nanosheets bring unprecedented control to preparation of nanoscrolls.

Researchers from Tokyo Metropolitan University have come up with a new way of rolling atomically thin sheets of atoms into “nanoscrolls.” Their unique approach uses transition metal dichalcogenide sheets with a different composition on either side, realizing a tight roll that gives scrolls down to five nanometers in diameter at the center and micrometers in length. Control over the nanostructure in these scrolls promises new developments in catalysis and photovoltaic devices.

Advancements in Nanotechnology.

Rhodopsin: From Light into Medicine

Rhodopsin can kill cancer cells keeping the surrounding cells healthy 😤

Considerable time and funding are required in development of new medicines necessary for otherwise untreatable illnesses. Professor Yuki SUDO of Okayama University seeks an innovative form of treatment using rhodopsin, a protein with light-reactive qualities. By extracting it and artificially inserting it into affected cells, it could treat illness simply by exposure to a specific type of light. He has succeeded in using rhodopsin to eliminate cells from cancer, the first such accomplishment ever achieved in the world. In this episode, we introduce the research toward a “light switch” to cure disease.

Engineers build robot swarm that can assemble and repair its shape in a distributed manner

Researchers have proposed a new strategy for the shape assembly of robot swarms based on the idea of mean-shift exploration: When a robot is surrounded by neighboring robots and unoccupied locations, it actively gives up its current location by exploring the highest density of nearby unoccupied locations in the desired shape.

The study, titled, “Mean-shift exploration in shape assembly of robot swarms,” has been published in Nature Communications.

This idea is realized by adapting the mean-shift algorithm, an optimization technique widely used in for locating the maxima of a density function.

SpaceX to deorbit 100 older Starlink satellites

TITUSVILLE, Fla. — SpaceX plans to remove from orbit about 100 of its older Starlink satellites because of a design flaw that could cause them to fail.

In a statement Feb. 12, SpaceX said it would perform controlled descents of about 100 “early-version 1” Starlink satellites out of concerns that the spacecraft could fail in orbit and no longer be maneuver.

“These satellites are currently maneuverable and serving users effectively, but the Starlink team identified a common issue in this small population of satellites that could increase the probability of failure in the future,” SpaceX stated. The company did not elaborate on that issue or identify the specific satellites affected.

Can Technological Civilizations Move Stars?

Sergey Brin, the brilliant Tech billionaire who co-founded Google, is building an airship at a cost of 250 million dollars, that would allow him to carry his home to wherever he goes. Could this concept be extended to the solar system as a whole? Might we want to take the Sun with us for a ride through the Milky Way galaxy?

Ecclesiastes 1:9 argued: “there is nothing new under the sun.” This gloomy perspective need not be true forever. With a few more centuries of science and technology, our civilization might develop a stellar engine that propels the Sun and allows us to travel with it through the Milky Way galaxy and beyond.

Fritz Zwicky, the astronomer who discovered dark matter in 1933, wrote in his 1957 book Morphological Astronomy: “Considering the Sun itself, many changes are imaginable. Most fascinating is perhaps the possibility of accelerating it to higher speeds, for instance 1,000 kilometers per second directed toward Alpha-Centauri in whose neighborhood our descendants then might arrive a thousand years hence. All of these projects could be realized through the action of nuclear fusion jets, using the matter constituting the Sun and the planets as nuclear propellants.”