Once upon a time, water flowed across the surface of Mars. Waves lapped against shorelines, strong winds gusted and howled, and driving rain fell from thick, cloudy skies. It wasn’t really so different from our own planet 4 billion years ago, except for one crucial detail—its size. Mars is about half the diameter of Earth, and that’s where things went wrong.
The Martian core cooled quickly, soon leaving the planet without a magnetic field. This, in turn, left it vulnerable to the solar wind, which swept away much of its atmosphere. Without a critical shield from the sun’s ultraviolet rays, Mars could not retain its heat. Some of the oceans evaporated, and the subsurface absorbed the rest, with only a bit of water left behind and frozen at its poles. If ever a blade of grass grew on Mars, those days are over.
But could they begin again? And what would it take to grow plants to feed future astronauts on Mars? Read the full story.
—David W. Brown
This lab robot mixes chemicals
Lab scientists spend much of their time doing laborious and repetitive tasks, be it pipetting liquid samples or running the same analyses over and over again. But what if they could simply tell a robot to do the experiments, analyze the data, and generate a report?
Enter Organa, a benchtop robotic system devised by researchers at the University of Toronto that can do exactly that. The system could automate some chemistry lab tasks using a combination of computer vision and a large language model that translates scientists’ verbal cues into an experimental pipeline. Read the full story.
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