You check the crash logs
Not if some wiseass manager decided to turn off all logs “to save payments on storage”
tail -f /var/log/forest | grep crash
Now you get a live report.Use
-F
so you can keep getting those live reports even after the forest you’re watching vanishesdeleted by creator
And the future is somewhere in /dev/random
Badum tssss
More like crrrrk–THUD–rustle-rustle
Copypasta:
Does a tree make a cracking sound in the forest if nobody’s around to hear it? Well, depending on the circumstances, the answer could be yes, no, or both. According to classical mechanics, the answer is definitely yes.
Classical mechanics, a physics subfield, studies the motion of large objects like planets and galaxies. Determinism and reversibility are central to our comprehension of the physical world; they allow us to predict future object behavior based on initial conditions and the laws of nature, suggesting we can trace motion history back to its initial state.
In classical mechanics, sound is described as a pressure wave propagating through a medium like air or water. When an object, such as a tree, is subjected to an external force, it may crack, causing a rapid release of energy transferred to surrounding air molecules, creating pressure waves or sound waves that travel until reaching a listener’s ear.
Sound waves cause the eardrum to vibrate, creating an electrical signal transmitted to the brain, resulting in the perception of sound. Thus, according to classical mechanics, the cracking sound by the tree is an objective physical phenomenon, occurring regardless of observation.
However, quantum mechanics introduces uncertainty. In this realm, particles exist in multiple states simultaneously, as seen in Schrödinger’s Cat. The presence or absence of the sound of a cracking tree is uncertain until observed, known as superposition.
In quantum mechanics, a particle is in superposition until observed, lacking a definite property. Observation causes the wave function to collapse, fixing properties. Thus, whether a tree makes a sound in the forest without an observer remains unclear until the particle is observed.
Observation’s impact extends to sound waves’ particle components, affecting their behavior. While the sound itself is objective, the act of observation can influence the experience of that sound.
In conclusion, the question of whether a tree makes a sound if no one hears it is straightforward in classical mechanics but introduces uncertainty in quantum mechanics. The Schrödinger’s Cat paradox exemplifies the complexities, challenging our understanding of reality as we continue to explore fundamental principles in our evolving understanding of the universe.
But the interaction of a quantum particle (in the system of the falling tree) with other particles and, on a larger scale, molecules, already represents an observation and information exchange. Therefore, while not 100% certain, it is extremely probable that the falling tree will make a sound. Isn’t it?
Logs? What logs?
the quantum level of description is a luxury:
Conscious intentional communication, which we perhaps too hastily attribute to human beings as a mark of distinction, becomes a limited domain, the only domain where the distinction between desirable and ‘spurious’ uncertainty pertains. We may have to concede that the centrality of human communication, understood as a semantic and culturally saturated information system is, at least in principle, neither the first system in which information processes occur, nor necessarily the most efficient.
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What is sound if not vibrations in the air?
Is tinnitus a sound?
Is bone conduction sound?
Are the signals a cochlear implant produce sound?
Sound is a perception. Sound waves are what can generate that perception. But sound doesn’t always require soundwaves, so there is a difference.
It’s very much a “dancing on the head of a pin” distinction, but the baseline joke also requires it.
Yes, those all are sounds.
From Wikipedia:
Tinnitus is a variety of sound that is heard when no corresponding external sound is present.
Should have been more distinct. Sounds are just vibration, they don’t need to go through air.
But neither tinnitus or cochlear implants have any vibration associated. If they are sounds then sounds are more than just vibrations. At the same time, not all vibrations are sounds.
The argument is that sound is part of our internal processing of sensations. If there is no brain to perceive it, is it a sound, or just a vibration in the air?
I can feel it coming in the air tonight, oh Lord
The brains interpretation of the pressure waves beating against the eardrum.
it doesn’t.
Oh, ok.
It creates sound waves…
Uh…
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Are you earnestly saying sound only exists if someone hears it?
A sound, also known as “air vibrations” to some, exists independently of a listener. It does not “become sound” only if someone hears it.
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This isn’t philosophy, It’s wankery.
Sound is a matter of Newtonian physics, which do not in any way care about linguistics or perception.
The universe is not so concerned with our perspective that it changes itself to suit us.
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Yes and no. It all depends in what field you’re describing sound. In physics, a tree that fell in the forest most definitely made a sound. In psychology, it doesn’t.
In physics, sound is a vibration that propagates as an acoustic wave through a transmission medium such as a gas, liquid or solid.
In human physiology and psychology, sound is the reception of such waves and their perception by the brain.
https://en.wikipedia.org/wiki/Sound
To be honest, I’m with the physicists.
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