Experimenting with NotebookLM to generate audio podcast

[DanielLB]

Hi everyone,

Looking to get feedback on one of several audio summary (podcast) of several recent papers and my book Quantum-Geometry Dynamics; an axiomatic approach to physics. I'm not looking for critiques, reviews of feedback about QGD itself, but like to know how clearly are the concepts introduced to someone unfamiliar with QGD

You can listen to the podcast here.

For comparison, I also asked the NotebookLM to create the summary below. Again, looking to feedback on the AI podcast , not looking or wanting to start a discussion about QGD itself. Thanks!

NotebookLM summary of Quantum-Geometry Dynamics; an axiomatic approach to physics

Imagine that the universe isn't made up of empty space and distinct particles flying around. Instead, what if space itself is made of tiny, fundamental building blocks? That's the core idea behind Quantum-Geometry Dynamics (QGD), a new approach to physics that tries to explain everything from the smallest particles to the vastness of the cosmos.

Here's a simplified look at QGD:

• The Universe is Built on Tiny Units: QGD proposes that space is not continuous but is made of incredibly small, discrete units. Think of it like a digital image made of pixels, but in three dimensions.
• Fundamental Particles Called Preons: Instead of the fundamental particles we currently know (like electrons and quarks), QGD suggests that everything is made of even tinier particles called preons. There are two types of these preons, and their interactions create what we perceive as space and matter.
• Dark Matter and Dark Energy Explained: One of the biggest mysteries in current physics is the existence of dark matter and dark energy, which we can't directly see. QGD offers a potential explanation without needing new, unseen types of particles or energy.
  • Dark Matter: QGD proposes that dark matter is simply made up of free preons, the fundamental building blocks of everything. The way these preons are distributed in and around galaxies can explain the strange way galaxies rotate, without needing an invisible "halo" of other matter.
  • Dark Energy: QGD's equations for gravity suggest that at very large distances, gravity becomes repulsive instead of attractive. This repulsive force could be what is causing the universe to expand at an accelerating rate, the phenomenon we attribute to dark energy.
• Gravity is Different: In QGD, gravity isn't a separate force carried by particles. Instead, it emerges from the interactions between preons. Importantly, gravity can be attractive at normal distances and repulsive at very large or very short distances, which has significant implications for how we understand the universe.
• Everything is Connected by Strict Cause and Effect: QGD operates under a principle called strict causality, meaning that nothing happens without a direct cause. This contrasts with some aspects of quantum mechanics where events can seem probabilistic.
• An Axiomatic Approach: QGD starts with a small set of fundamental assumptions (axioms) from which all other physical laws and phenomena are meant to be derived. This is similar to how mathematics builds complex ideas from a few basic rules.

How does QGD compare to what we currently understand?

QGD is an alternative framework to the standard model of particle physics and cosmology. While our current models rely on concepts like non-baryonic dark matter and a cosmological constant for dark energy, QGD attempts to provide a more unified picture based on a single type of fundamental particle and the nature of space itself.

Is QGD proven?

QGD is a relatively new theory, having been in development for a little over a decade. It has shown that it can explain many things we already observe and makes testable predictions that could potentially be used to confirm or disprove it. Scientists are still working to rigorously test QGD against experimental data and compare its predictions to those of our existing theories.

In essence, QGD offers a bold and different way of thinking about the fundamental nature of reality, suggesting that space and matter arise from the interactions of tiny preons and that the mysteries of dark matter and dark energy might be explained by the unique properties of gravity at different scales.

 

[exchemist]

Hi everyone,

Looking to get feedback on one of several audio summary (podcast) of several recent papers and my book Quantum-Geometry Dynamics; an axiomatic approach to physics. I'm not looking for critiques, reviews of feedback about QGD itself, but like to know how clearly are the concepts introduced to someone unfamiliar with QGD

You can listen to the podcast here.

For comparison, I also asked the NotebookLM to create the summary below. Again, looking to feedback on the AI podcast , not looking or wanting to start a discussion about QGD itself. Thanks!

NotebookLM summary of Quantum-Geometry Dynamics; an axiomatic approach to physics

Imagine that the universe isn't made up of empty space and distinct particles flying around. Instead, what if space itself is made of tiny, fundamental building blocks? That's the core idea behind Quantum-Geometry Dynamics (QGD), a new approach to physics that tries to explain everything from the smallest particles to the vastness of the cosmos.

Here's a simplified look at QGD:

• The Universe is Built on Tiny Units: QGD proposes that space is not continuous but is made of incredibly small, discrete units. Think of it like a digital image made of pixels, but in three dimensions.
• Fundamental Particles Called Preons: Instead of the fundamental particles we currently know (like electrons and quarks), QGD suggests that everything is made of even tinier particles called preons. There are two types of these preons, and their interactions create what we perceive as space and matter.
• Dark Matter and Dark Energy Explained: One of the biggest mysteries in current physics is the existence of dark matter and dark energy, which we can't directly see. QGD offers a potential explanation without needing new, unseen types of particles or energy.
  • Dark Matter: QGD proposes that dark matter is simply made up of free preons, the fundamental building blocks of everything. The way these preons are distributed in and around galaxies can explain the strange way galaxies rotate, without needing an invisible "halo" of other matter.
  • Dark Energy: QGD's equations for gravity suggest that at very large distances, gravity becomes repulsive instead of attractive. This repulsive force could be what is causing the universe to expand at an accelerating rate, the phenomenon we attribute to dark energy.
• Gravity is Different: In QGD, gravity isn't a separate force carried by particles. Instead, it emerges from the interactions between preons. Importantly, gravity can be attractive at normal distances and repulsive at very large or very short distances, which has significant implications for how we understand the universe.
• Everything is Connected by Strict Cause and Effect: QGD operates under a principle called strict causality, meaning that nothing happens without a direct cause. This contrasts with some aspects of quantum mechanics where events can seem probabilistic.
• An Axiomatic Approach: QGD starts with a small set of fundamental assumptions (axioms) from which all other physical laws and phenomena are meant to be derived. This is similar to how mathematics builds complex ideas from a few basic rules.

How does QGD compare to what we currently understand?

QGD is an alternative framework to the standard model of particle physics and cosmology. While our current models rely on concepts like non-baryonic dark matter and a cosmological constant for dark energy, QGD attempts to provide a more unified picture based on a single type of fundamental particle and the nature of space itself.

Is QGD proven?

QGD is a relatively new theory, having been in development for a little over a decade. It has shown that it can explain many things we already observe and makes testable predictions that could potentially be used to confirm or disprove it. Scientists are still working to rigorously test QGD against experimental data and compare its predictions to those of our existing theories.

In essence, QGD offers a bold and different way of thinking about the fundamental nature of reality, suggesting that space and matter arise from the interactions of tiny preons and that the mysteries of dark matter and dark energy might be explained by the unique properties of gravity at different scales.

Many of the people here, myself included, will have nothing to do with reading the output of chatbots, on principle. This is because when it comes to science, chatbots have shown themselves highly unreliable. They tend to give output that tries to agree with the input, regardless of veracity. (Not surprising as they are chatbots i.e. they are designed to engage in chat.) Chatbot output also tends to be verbose and tries to impress with technical terms, at the expense of clarity. It often reads like a bad undergraduate essay.

Having said that, I did glance through your post, which I admit was not nearly as bad as some chatbot output I have come across, though it does not tell us anything about your theory. It reads more like a sales pitch: a teaser with little content. Is that what you intended?

One point I didn't follow is why you seem to think dark matter could consist of free preons. Preons need to have electic charge, surely? If they do, how could they not interact with EM radiation?

 

[ольга]

Many of the people here, myself included, will have nothing to do with reading the output of chatbots, on principle. This is because when it comes to science, chatbots have shown themselves highly unreliable. They tend to give output that tries to agree with the input, regardless of veracity. (Not surprising as they are chatbots i.e. they are designed to engage in chat.) Chatbot output also tends to be verbose and tries to impress with technical terms, at the expense of clarity. It often reads like a bad undergraduate essay.

Having said that, I did glance through your post, which I admit was not nearly as bad as some chatbot output I have come across, though it does not tell us anything about your theory. It reads more like a sales pitch: a teaser with little content. Is that what you intended?

One point I didn't follow is why you seem to think dark matter could consist of free preons. Preons need to have electic charge, surely? If they do, how could they not interact with EM radiation?

"Преоны" не могут иметь заряд, поскольку они бесструктурны. И их не два типа.

 

[DanielLB]

Many of the people here, myself included, will have nothing to do with reading the output of chatbots, on principle. This is because when it comes to science, chatbots have shown themselves highly unreliable. They tend to give output that tries to agree with the input, regardless of veracity. (Not surprising as they are chatbots i.e. they are designed to engage in chat.) Chatbot output also tends to be verbose and tries to impress with technical terms, at the expense of clarity. It often reads like a bad undergraduate essay.

Having said that, I did glance through your post, which I admit was not nearly as bad as some chatbot output I have come across, though it does not tell us anything about your theory. It reads more like a sales pitch: a teaser with little content. Is that what you intended?

One point I didn't follow is why you seem to think dark matter could consist of free preons. Preons need to have electic charge, surely? If they do, how could they not interact with EM radiation?

The podcast is really meant for the public at large.

I fed your question to the AI and here is its answer (which is completely accurate and as good or better than anything I could have written myself). You could also upload the book yourself to NotebookLM along with any number of relevant papers and ask questions directly.

______________________________

NotebookLM answer to the question: If dark matter could consist of free preons do preons need to have electic charge? If they do, how could they not interact with EM radiation?

Based on the provided sources, Quantum-Geometry Dynamics (QGD) does propose that dark matter is composed of free preons (+).

Regarding the electric charge of preons and their interaction with EM radiation, QGD presents the following ideas:

• Preons (+) are the fundamental units of matter. All other particles are composed of them.
• QGD suggests that so-called charged particles (like electrons and protons) do not possess intrinsic electrical charges. Instead, QGD uses the term "polarizing particles" because their dynamic structure causes them to interact with and polarize the "preonic field" (composed of free preons +). This polarization of the preonic field is what we commonly refer to as a magnetic field.
• The electromagnetic effects of attraction and repulsion between polarizing particles are explained by their interactions with the polarized preonic field between them, not by intrinsic charges.

Given this framework, the answer to your questions is:

• According to QGD, free preons (+) themselves do not need to have an intrinsic electric charge to constitute dark matter. In fact, QGD's model suggests that fundamental particles, like preons (+), and even composite particles like electrons and protons, do not possess fundamental electric charges in the conventional sense.
• If preons (+) do not have an intrinsic electric charge, then they would not interact with electromagnetic (EM) radiation in the same way that charged particles do in standard models. EM radiation, in the context of QGD, appears to be understood as interactions within the preonic field, influenced by polarizing particles. Free preons (+), being the constituents of the preonic field, are what EM fields are made of in this model, rather than entities that interact with a pre-existing EM field due to charge.

Furthermore, source mentions that QGD predicts a number of low-mass photons and neutrinos were formed following the initial preonic state. Photons (or neutrinos) with momentum below a certain threshold ($P_\gamma < m_{e^-}$) are considered "dark photons" because they are undetectable by interacting with electrons. This suggests that some forms of electromagnetic radiation (photons) might also be considered part of dark matter if their energy is too low to interact measurably with ordinary matter (electrons) according to QGD's laws of momentum.

In essence, QGD provides a model where the fundamental constituents of matter (preons +) are not inherently electrically charged. Their interactions and the polarization of the preonic field they form give rise to what we observe as electromagnetic phenomena. Therefore, free preons (+) would not interact with EM radiation in a way that would make them visible or easily detectable, fitting the description of dark matter as matter that does not interact with light or the electromagnetic field.

 

[exchemist]

Deleted

 

[exchemist]

The podcast is really meant for the public at large.

I fed your question to the AI and here is its answer (which is completely accurate and as good or better than anything I could have written myself). You could also upload the book yourself to NotebookLM along with any number of relevant papers and ask questions directly.

______________________________

NotebookLM answer to the question: If dark matter could consist of free preons do preons need to have electic charge? If they do, how could they not interact with EM radiation?

Based on the provided sources, Quantum-Geometry Dynamics (QGD) does propose that dark matter is composed of free preons (+).

Regarding the electric charge of preons and their interaction with EM radiation, QGD presents the following ideas:

• Preons (+) are the fundamental units of matter. All other particles are composed of them.
• QGD suggests that so-called charged particles (like electrons and protons) do not possess intrinsic electrical charges. Instead, QGD uses the term "polarizing particles" because their dynamic structure causes them to interact with and polarize the "preonic field" (composed of free preons +). This polarization of the preonic field is what we commonly refer to as a magnetic field.
• The electromagnetic effects of attraction and repulsion between polarizing particles are explained by their interactions with the polarized preonic field between them, not by intrinsic charges.

Given this framework, the answer to your questions is:

• According to QGD, free preons (+) themselves do not need to have an intrinsic electric charge to constitute dark matter. In fact, QGD's model suggests that fundamental particles, like preons (+), and even composite particles like electrons and protons, do not possess fundamental electric charges in the conventional sense.
• If preons (+) do not have an intrinsic electric charge, then they would not interact with electromagnetic (EM) radiation in the same way that charged particles do in standard models. EM radiation, in the context of QGD, appears to be understood as interactions within the preonic field, influenced by polarizing particles. Free preons (+), being the constituents of the preonic field, are what EM fields are made of in this model, rather than entities that interact with a pre-existing EM field due to charge.

Furthermore, source mentions that QGD predicts a number of low-mass photons and neutrinos were formed following the initial preonic state. Photons (or neutrinos) with momentum below a certain threshold ($P_\gamma < m_{e^-}$) are considered "dark photons" because they are undetectable by interacting with electrons. This suggests that some forms of electromagnetic radiation (photons) might also be considered part of dark matter if their energy is too low to interact measurably with ordinary matter (electrons) according to QGD's laws of momentum.

In essence, QGD provides a model where the fundamental constituents of matter (preons +) are not inherently electrically charged. Their interactions and the polarization of the preonic field they form give rise to what we observe as electromagnetic phenomena. Therefore, free preons (+) would not interact with EM radiation in a way that would make them visible or easily detectable, fitting the description of dark matter as matter that does not interact with light or the electromagnetic field.

No thanks, I’ll wait for you to reply in your own words. I’m not going to carry on a conversation with a robot.

 

[DanielLB]

Many of the people here, myself included, will have nothing to do with reading the output of chatbots, on principle. This is because when it comes to science, chatbots have shown themselves highly unreliable.

I agree. But in this case, being the author, I can check responses and analysis for accuracy.

 

[TheVat]

You can listen to the podcast

No I can't. Asked me to sign on to a Google account and refused to accept Guest mode or incognito mode. Is there a web accessible link to this?

 

[DanielLB]

No I can't. Asked me to sign on to a Google account and refused to accept Guest mode or incognito mode. Is there a web accessible link to this?

I'll set something up later today which does not require logging in.

 

[DanielLB]

The podcast linked below is a better explanation than the one I posted earlier. It shouldn't require a login.

1. Quantum-Geometry Dynamics_ An Axiomatic Approach to Physics.wav