asad ali
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Phones that never need to be charged? These nano diamond batteries could last thousands of years:
In 2020, a California-based company, NDB, developed a revolutionary battery that could last up to 28,000 years by converting nuclear waste into energy.
These nano-diamond batteries are made by converting radioactive carbon-14 from nuclear reactor parts into energy-producing diamonds. To ensure safety, the carbon-14 diamonds are encased in a second protective diamond layer, making the batteries not only powerful but also secure.
These self-powered batteries, which generate their own charge rather than storing energy, could be a game-changer for everything from electric vehicles to personal devices.
Today, NDB claims that their batteries emit less radiation than the human body, making them safe for everyday use — perhaps even as smartphone batteries. 0 reply
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In the hidden depths of the Phaver Lagoon, where shadows twist and moonlight struggles to reach, a villain known as Abyssus reigns as the deadliest force beneath the sea. Once a renowned protector, Abyssus was betrayed by his comrades and cast into the ocean's darkest depths. Consumed by bitterness, he transformed into a being of sheer malice, commanding the undersea world with a power as vast and unrelenting as the abyss itself.
With a face locked in eternal menace, his eyes glow like cursed sapphires, chilling the heart of anyone who dares look upon him. Abyssus wields the currents with terrifying mastery, summoning whirlpools and waves that trap and crush all who oppose him. Brave heroes have tried to bring him down, but they vanish into the deep, lost in his shadow and never seen again.
Legends say that if you wander near Phaver Lagoon under the full moon, you might catch a glimpse of Abyssus standing victorious, surrounded by the remnants of those who dared to defy him. A dark whisper moves through … 0 reply
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A quantum computer performed 2.6 billion years of computation in just 4 minutes.
In that short time, it solved a problem that is far too complicated for even the largest classical supercomputer.
This breakthrough was achieved by researchers in China using their 76-qubit photon-based quantum computer prototype named Jiuzhang.
The machine, made of lasers, mirrors, prisms and photon detectors, uses a technique called Gaussian boson sampling, which involves counting detected photons. With the ability to count 76 photons, Jiuzhang broke the 5 photon record of classical supercomputers.
This is not just a theoretical proof, as Gaussian boson sampling could have practical applications in solving problems in quantum chemistry and math, and contribute to the development of large-scale quantum internet.
Both quantum and classical computers try to solve problems, but the way they process data to get answers is completely different. The principles of quantum mechanics, such as superposition and entanglement, ar… 0 reply
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