Uncovering the Mystery of Time: Examining Theories in Modern Physics

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Discussion Overview

The discussion centers around the nature of time in modern physics, specifically whether time is quantized or continuous. Participants explore various theories and perspectives on the understanding of time, its potential discreteness, and how it relates to established concepts in quantum mechanics.

Discussion Character

  • Exploratory
  • Debate/contested
  • Conceptual clarification

Main Points Raised

  • One participant questions whether time is quantized, suggesting it might be discrete like energy, and wonders about recent theories that could clarify this.
  • Another participant mentions a theory that spacetime may become "granular" at very small scales, although they express uncertainty about its acceptance and relevance to the question of time.
  • A different participant asserts that there is currently no established consensus on the quantization of time, indicating that while theories exist, they remain unverified and distant from confirmation.
  • Another contribution critiques the assumption that time can be considered quantized by arguing that energy quantization is context-dependent and that spatial dimensions are not discretized in conventional quantum mechanics.

Areas of Agreement / Disagreement

Participants express differing views on the nature of time, with some proposing the possibility of quantization while others challenge this notion. The discussion remains unresolved, with no consensus on whether time is quantized or continuous.

Contextual Notes

Participants highlight the lack of verification for theories suggesting quantization of time and the dependence of energy quantization on specific potentials. The discussion also reflects uncertainties regarding the acceptance of certain theoretical frameworks.

yoran
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Hi,

Lately I was wondering whether or not time is also "quantized". By that I mean that, is time something continuous or more like something discrete, i.e does there exist an indivisible entity of time? I know that energy (or, equivalently matter) is quantized. Maybe time is as well? That we see our world just like a camera, but instead of a refreshing rate of 60 times a second, it is refreshed ten thousand billion times a second (just for example).
I'm not a professional physicist, and I know that time is something that is not well understood. I was just wondering if any recent research or recently developed theories allows us to understand time better. You guys probably know more about what's going on in the world of physics research. What are the main theories about time?

Thank you.

Yoran
 
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I don't know very much about this subject, but the theory exists that on small enough distance scales (< Planck length) spacetime becomes "granular" and it just looks smooth from "far away". Not sure whether that is a generally accepted idea and if it is relevant to your question though...
 
yoran said:
Hi,

Lately I was wondering whether or not time is also "quantized". By that I mean that, is time something continuous or more like something discrete, i.e does there exist an indivisible entity of time? I know that energy (or, equivalently matter) is quantized. Maybe time is as well? That we see our world just like a camera, but instead of a refreshing rate of 60 times a second, it is refreshed ten thousand billion times a second (just for example).
I'm not a professional physicist, and I know that time is something that is not well understood. I was just wondering if any recent research or recently developed theories allows us to understand time better. You guys probably know more about what's going on in the world of physics research. What are the main theories about time?

Thank you.

Yoran

If you're asking whether we have already established that time is quantized the same way we have established other quantizations in quantum mechanics, the quick answer is no.

While there may be theories floating around that imply quantization of time, these aren't verified yet and at this point, may be a long ways away from being verified. Until they are verified, we will go with what we know now.

Zz.
 
"Is time also quantized?"

The word "also" seems unjustified. There is no fundamental discrete amount of energy. Free particles, moving as wave packets, have continuous spectrum of energy. The energy quantization occurs only in certain kind of potentials, and then the allowed energy states depend on the potential. Furthermore, the spatial space is not quantized either to be anything discrete in the usual formulation of QM. It is still the mathematical \mathbb{R}^3, that has so far proven to be (locally) the best approximation to our real physical space.
 
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