• Space/Science
  • GeekSpeak
  • Mysteries of
    the Multiverse
  • Science Fiction
  • The Comestible Zone
  • Off-Topic
  • Community
  • Flame
  • CurrentEvents

Recent posts

Plan(et) 9 from Outer Space BuckGalaxy May 13, 2025 10:58 am (Space/Science)

Shouldn't there be an Afrikaaner-American studies department in our universities? ER May 12, 2025 2:59 pm (CurrentEvents)

The April numbers ER May 8, 2025 5:59 am (Space/Science)

The Orange Criminal POS abandons another ally BuckGalaxy May 7, 2025 10:18 am (CurrentEvents)

Orion spacecraft for crewed Artemis II lunar mission ready BuckGalaxy May 3, 2025 8:13 pm (Space/Science)

Australia election more bad news conservatives BuckGalaxy May 3, 2025 11:54 am (CurrentEvents)

Massive cuts to NASA budget proposed BuckGalaxy May 3, 2025 9:19 am (Space/Science)

Say what? ER May 1, 2025 8:53 pm (CurrentEvents)

Radio Broadcasts BuckGalaxy May 1, 2025 12:28 pm (Space/Science)

The Last of Us BuckGalaxy April 30, 2025 12:37 pm (Science Fiction)

You can't make this stuff up... RobVG April 29, 2025 1:43 pm (CurrentEvents)

Home » Space/Science

New Quantum Paradox Throws the Foundations of Observed Reality into Question . . . January 14, 2021 3:51 pm DanS

New Quantum Paradox Throws the Foundations of Observed Reality into Question
If a tree falls in a forest and no one is there to hear it, does it make a sound? Perhaps not, some say.

By Eric Cavalcanti | Associate Professor (ARC Future Fellow), Griffith University

September 04, 2020 | And if someone is there to hear it? If you think that means it obviously did make a sound, you might need to revise that opinion.


(Image: © Shutterstock)

We have found a new paradox in quantum mechanics — one of our two most fundamental scientific theories, together with Einstein’s theory of relativity — that throws doubt on some common-sense ideas about physical reality.

Quantum mechanics vs. common sense
Take a look at these three statements:

* When someone observes an event happening, it really happened.
* It is possible to make free choices, or at least, statistically random choices.
* A choice made in one place can’t instantly affect a distant event. (Physicists call this “locality”.)

These are all intuitive ideas, and widely believed even by physicists. But our research, published in Nature Physics, shows they cannot all be true — or quantum mechanics itself must break down at some level.

This is the strongest result yet in a long series of discoveries in quantum mechanics that have upended our ideas about reality. To understand why it’s so important, let’s look at this history.

More:
The battle for reality
The observer, observed
Our experiment
What does it all mean?

    Search

    The Control Panel

    • Log in
    • Register