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Mar. 21st, 2010 09:42 pm![[personal profile]](https://www.dreamwidth.org/img/silk/identity/user.png){kind=small}
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vvagr
Andrew Cleland at the University of California, Santa Barbara, and his team cooled a tiny metal paddle until it reached its quantum mechanical 'ground state' — the lowest-energy state permitted by quantum mechanics. They then used the weird rules of quantum mechanics to simultaneously set the paddle moving while leaving it standing still. The experiment shows that the principles of quantum mechanics can apply to everyday objects as well as as atomic-scale particles.
The work is simultaneously being published online today in Nature and rejected by the reviewers (шютка)
vvagr Andrew Cleland at the University of California, Santa Barbara, and his team cooled a tiny metal paddle until it reached its quantum mechanical 'ground state' — the lowest-energy state permitted by quantum mechanics. They then used the weird rules of quantum mechanics to simultaneously set the paddle moving while leaving it standing still. The experiment shows that the principles of quantum mechanics can apply to everyday objects as well as as atomic-scale particles.
The work is simultaneously being published online today in Nature and rejected by the reviewers (шютка)
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Date: 2010-03-21 11:00 pm (UTC)2. наш сеанс был в 5. и даже это было поздновато, мальчик рано встает, к 8 ходит в садик. так что увы.