Back in 2017, astronomers spotted something extraordinary — a mysterious object named ‘Oumuamua, the first known interstellar visitor to sweep through our Solar System. Its appearance sparked global excitement and ignited a new scientific quest: to catch and study these cosmic drifters.

These objects, likely ejected from faraway star systems, may carry chemical clues about alien worlds we’ve never seen. But intercepting one is no easy task. Interstellar objects (ISOs) move at breakneck speeds — ‘Oumuamua, for instance, zipped by at over 32 kilometers per second — and we typically notice them only after they’ve already slipped past Earth.

That’s about to change.
Space agencies like NASA and the European Space Agency (ESA) are preparing to act. ESA’s Comet Interceptor, slated for launch in 2029, will park in space, ready to rendezvous with a pristine comet — or, ideally, an ISO. NASA’s proposed Bridge mission would launch in rapid response to a new detection. And future efforts may use cutting-edge tech like solar sails, AI-driven navigation, and swarms of nimble spacecraft to make real-time interceptions possible.
Meanwhile, the upcoming Vera C. Rubin Observatory is set to revolutionize our sky-watching capabilities. Once active, it could detect dozens of ISOs each year, vastly increasing our chances to study these ancient travelers from other star systems.
But timing is everything. Without the right tools and consistent support, we could miss our chance. The race to catch an object from beyond the stars has begun — and it’s moving fast.

Pacers fans at the Indianapolis International Airport react to Tyrese Haliburton’s game-winning shot in Game 1 of the NBA Finals

Most people associate the internet with satellites in space—but that’s far from reality. More than 99% of international data traffic flows through a vast network of undersea fiber-optic cables, not satellites.

How It Works:
These cables, laid along the seafloor, connect continents with blazing-fast data transmission capabilities. They’re thinner than a garden hose but carry terabits of data per second.

Global Scale:

Over 500 active submarine cables span the oceans, covering more than 1.4 million kilometers.

Tech giants like Google, Meta, Amazon, and Microsoft are investing billions into private undersea cable infrastructure to support cloud services and global connectivity.

Why Not Satellites?
While satellite internet is useful for remote areas, it suffers from higher latency, weather interference, and limited bandwidth compared to fiber cables. That’s why undersea infrastructure remains the true backbone of the digital age.

#UnderseaCables #InternetInfrastructure #TechExplained #SubmarineCables #DataTraffic

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Astronaut's eye view — Mount Fuji from space.

Captured by astronaut Soichi Noguchi aboard the International Space Station (ISS), this stunning image shows Japan’s iconic Mount Fuji rising like a beacon through the clouds.

At 400+ km above Earth, the ISS offers a rare perspective of our planet’s natural wonders — and this is one of the most breathtaking.

#EarthFromSpace #MountFuji #Japan #ISS #SoichiNoguchi #AstronautPhotography