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Dec 11, 2024

Strategic Tree Planting: A Solution for Urban Heat or a Potential Problem?

Posted by in categories: climatology, sustainability

How can tree placement impact urban temperatures? This is what a recent study published in Communications Earth & Environment hopes to address as an international team of researchers investigated how tree planting locations plays a vital role in mitigating the effects of climate change on urban environments. This study holds the potential to help researchers, climate scientists, the public, and city planners have the necessary tools and resources to combat climate change while still providing adequate ecology for their surroundings.

For the study, the researchers conducted a literature review on 182 past studies discussing how tree planting can decrease temperatures in urban environments, including 110 cities or regions worldwide and 17 climates, with the goal of quantifying this temperature decrease on a global scale. In the end, the team found that 83 percent of the cities used in the study experienced average monthly peak temperatures below 26 degrees Celsius (79 degrees Fahrenheit) while also noting that tree planting contributes to a decrease of 12 degrees Celsius (54 degrees Fahrenheit) in pedestrian-level temperatures.

“Our study provides context-specific greening guidelines for urban planners to more effectively harness tree cooling in the face of global warming,” said Dr. Ronita Bardhan, who is an Associate Professor of Sustainable Built Environment at the University of Cambridge and a co-author on the study. “Our results emphasize that urban planners not only need to give cities more green spaces, they need to plant the right mix of trees in optimal positions to maximize cooling benefits.”

Dec 11, 2024

XLuminA automatically discovers experimental designs in microscopy

Posted by in category: futurism

A new class of magnetism called altermagnetism has been imaged for the first time in a new study. The findings could lead to the development of new magnetic memory devices with the potential to increase operation speeds of up to a thousand times.

Altermagnetism is a distinct form of magnetic order where the tiny constituent magnetic building blocks align antiparallel to their neighbors but the structure hosting each one is rotated compared to its neighbors.

Scientists from the University of Nottingham’s School of Physics and Astronomy have shown that this new third class of magnetism exists and can be controlled in microscopic devices. The findings have been published in Nature.

Dec 11, 2024

Apple LiDAR Sensor for 3D Surveying: Tests and Results in the Cultural Heritage Domain

Posted by in categories: augmented reality, mobile phones

🏛️⛩️ ✍️ Lorenzo Teppati Losè et al.


The launch of the new iPad Pro by Apple in March 2020 generated high interest and expectations for different reasons; nevertheless, one of the new features that developers and users were interested in testing was the LiDAR sensor integrated into this device (and, later on, in the iPhone 12 and 13 Pro series). The implications of using this technology are mainly related to augmented and mixed reality applications, but its deployment for surveying tasks also seems promising. In particular, the potentialities of this miniaturized and low-cost sensor embedded in a mobile device have been assessed for documentation from the cultural heritage perspective—a domain where this solution may be particularly innovative. Over the last two years, an increasing number of mobile apps using the Apple LiDAR sensor for 3D data acquisition have been released.

Dec 11, 2024

Neurosurgeons unravel the distinct nerve wiring of human memory

Posted by in category: neuroscience

The black box of the human brain is starting to open. Although animal models are instrumental in shaping our understanding of the mammalian brain, scarce human data is uncovering important specificities.

In a paper published in Cell, a team led by the Jonas group at the Institute of Science and Technology Austria (ISTA) and neurosurgeons from the Medical University of Vienna shed light on the human hippocampal CA3 region, central for memory storage.

Many of us have relished those stolen moments with a grandparent by the fireplace, our hearts racing to the intrigues of their stories from good old times, recounted with vivid imagery and a pinch of fantasy.

Dec 11, 2024

Why Do Gliomas Tend To Recur in the Brain?

Posted by in category: neuroscience

First look at neuron-tumor connections illuminates formation, spread.

Dec 11, 2024

The quantum reason behind the solidity of matter

Posted by in categories: chemistry, particle physics, quantum physics

Here on planet Earth, as well as in most locations in the Universe, everything we observe and interact with is made up of atoms. Atoms come in roughly 90 different naturally occurring species, where all atoms of the same species share similar physical and chemical properties, but differ tremendously from one species to another. Once thought to be indivisible units of matter, we now know that atoms themselves have an internal structure, with a tiny, positively charged, massive nucleus consisting of protons and neutrons surrounded by negatively charged, much less massive electrons. We’ve measured the physical sizes of these subatomic constituents exquisitely well, and one fact stands out: the size of atoms, at around 10-10 meters apiece, are much, much larger than the constituent parts that compose them.

Protons and neutrons, which compose the atom’s nucleus, are roughly a factor of 100,000 smaller in length, with a typical size of only around 10-15 meters. Electrons are even smaller, and are assumed to be point-like particles in the sense that they exhibit no measurable size at all, with experiments constraining them to be no larger than 10-19 meters across. Somehow, protons, neutrons, and electrons combine together to create atoms, which occupy much greater volumes of space than their components added together. It’s a mysterious fact that atoms, which must be mostly empty space in this regard, are still impenetrable to one another, leading to enormous collections of atoms that make up the solid objects we’re familiar with in our macroscopic world.

So how does this happen: that atoms, which are mostly empty space, create solid objects that cannot be penetrated by other solid objects, which are also made of atoms that are mostly empty space? It’s a remarkable fact of existence, but one that requires quantum physics to explain.

Dec 11, 2024

Material that “will change the world” is declared safe for humans

Posted by in categories: nanotechnology, particle physics

A nanotechnology material called graphene has captured attention worldwide, with many scientists dubbing it the latest “wonder material” with the potential to have an enormous human impact.

Graphene’s structure, made of carbon atoms arranged in a thin sheet, has properties that make it a strong contender to revolutionize many industries.

It’s often regarded as the thinnest and strongest material discovered so far, showing flexibility that few other materials can match. Its potential uses range from improving electronic devices to creating better ways to clean water.

Dec 11, 2024

Apple’s Top Apps Include Balatro and One Truly Endearing Game

Posted by in category: electronics

Apple wants you to care about F1 TV and the NYTGames apps, but you shouldn’t miss out on Thank Goodness You’re Here!

Dec 11, 2024

Death Isn’t Final: New Math Model Suggests Cells Can Be Revived

Posted by in categories: biotech/medical, mathematics

Cellular death is a fundamental concept in biological sciences. Despite its importance, its definition varies depending on the context in which it occurs and lacks a general mathematical definition.

Researchers from the University of Tokyo propose a new mathematical definition of death based on whether a potentially dead cell can return to a predefined “representative state of living,” which are the states of being that we can confidently call “alive.” The researchers’ work could be useful for biological researchers and future medical research.

While it’s not something we like to think about, death comes for us all eventually, whether you’re an animal, a plant, or even a cell. And even though we can all differentiate between what is alive and dead, it might be surprising to know that death at a cellular level lacks a widely recognized mathematical definition.

Dec 11, 2024

Google says its new quantum chip indicates that multiple universes exist

Posted by in categories: computing, cosmology, quantum physics

Google on Monday announced Willow, its latest, greatest quantum computing chip. The speed and reliability performance claims Google’s made about this chip were newsworthy in themselves, but what really caught the tech industry’s attention was an even wilder claim tucked into the blog post about the chip.

Google Quantum AI founder Hartmut Neven wrote in his blog post that this chip was so mind-boggling fast that it must have borrowed computational power from other universes.

Ergo the chip’s performance indicates that parallel universes exist and “we live in a multiverse.”

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