Sep 9, 2024
To make Mars warmer, just add nanorods
Posted by Dan Breeden in categories: nanotechnology, space
Releasing engineered nanoparticles into the Martian atmosphere could warm the planet by over 30 K.
Releasing engineered nanoparticles into the Martian atmosphere could warm the planet by over 30 K.
A man who received a partial face and eye transplant after a serious accident does not have any vision in the transplanted eye, but the eye itself is still alive.
By Tanya Lewis
face_with_colon_three year 2022.
Astrophysicists hope a map created by the Dark Energy Spectroscopic Instrument will help answer questions about the expansion of the universe.
Continue reading “Largest 3D map of the universe contains 8 million galaxies” »
The eROSITA telescope’s detailed pictures are among the most precise cosmological measurements ever made.
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Could something in the future alter the past, so that effect came before cause? Does quantum mechanics truly allow this, as often hinted?
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The graviton – a hypothetical particle that carries the force of gravity – has eluded detection for over a century. But now physicists have designed an experimental setup that could in theory detect these tiny quantum objects.
In the same way individual particles called photons are force carriers for the electromagnetic field, gravitational fields could theoretically have its own force-carrying particles called gravitons.
The problem is, they interact so weakly that they’ve never been detected, and some physicists believe they never will.
Cancer treatment has reached a new milestone with the development of an innovative method to destroy cancer cells using molecular jackhammers, offering hope for more targeted and efficient therapies.
This cutting-edge approach utilizes advanced molecular science to disrupt cancer cells in a way that could minimize harm to healthy tissue.
A collaborative team of scientists has found that stimulating aminocyanine molecules with near-infrared light causes them to vibrate in sync, producing enough force to effectively rupture the membranes of cancer cells without invasive procedures.
In the ongoing battle against cancer, a new AI approach is being explored that holds the potential to revolutionize the future of personalized cancer treatments.
The technology, which is an amalgamation of artificial intelligence, molecular dynamics simulations, and network analysis, aims to predict the binding sites on cancer-related proteins. This will pave the way for a faster development of treatments tailored for individual cancer patients.
The study was led by Dr. Rafael Bernardi, an associate professor of biophysics in the Department of Physics at Auburn University. As part of a collaborative effort with the University of Basel and ETH Zurich, the team is breaking barriers on how we understand and fight cancer.
These will be uncrewed to test the reliability of landing intact on Mars. If those landings go well, then the first crewed flights to Mars will be in 4 years.