Public Announcement Appendix 10: Pre-Universal Gravitational and Energetic Conditions in ECM

🌌 Public Announcement | ECM Update

📅 June 15, 2025
📍 Tagore's Electronic Lab
🧠 Research by: Soumendra Nath Thakur

🔬 New Appendix Published:
Appendix 10: Pre-Universal Gravitational and Energetic Conditions in ECM
📄 Read Now

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🔍 What Is It About? 

Where did the universe come from before the Big Bang?

This new research paper explores that very question—not through assumptions about singularities, but by tracing the energy dynamics and mass patterns that existed even before stable particles formed.

According to the Extended Classical Mechanics (ECM) framework, the early universe was filled with potential energy, which began to flow and redistribute in very specific ways. As energy transitioned, it gave rise to something unexpected: negative mass effects, or what we experience today as dark energy.

Instead of a violent explosion from nothing, this view suggests a structured emergence—a phase where energy borrowed from itself, set things into motion, and gradually unfolded the cosmos into matter, motion, and gravity.

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🧠 Key Highlights in Simple Terms:

• The universe began not with a bang, but with flowing energy and no matter.

• Dark energy may come from negative apparent mass—a kind of gravitational ghost.

• Early expansion happened with superluminal speed (faster than light), but in a structured, lawful way.

• Stable atoms and real mass emerged gradually from these early energy structures.

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🔗 Explore the ECM Series:

1. Appendix 7: Photon Emission in ECM

2. Appendix 8: Beyond Planck Thresholds

3. Appendix 9: Cosmic Genesis & Gravitation

4. Appendix 10: Pre-Universal Energetics

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✉️ For Collaboration & Inquiries

📧 postmasterenator@gmail.com
🏛️ Tagore's Electronic Lab, West Bengal, India

Release Announcement | ECM Appendix 9: Cosmic Genesis and Gravitational Descriptions.

🌌 Release Announcement | ECM Appendix 9

Soumendra Nath Thakur | Tagore's Electronic Lab, India
📘 ECM's Cosmic Genesis and Gravitational Descriptions
🆕 DOI: 10.13140/RG.2.2.13289.40801
📅 June 15, 2025

🔭 What if the Universe didn’t begin with a bang... but with a vibration?
Appendix 9 of the Extended Classical Mechanics (ECM) series introduces a bold new idea: the Universe may have started not from a singular explosion, but from a calm and timeless field of potential energy—a kind of cosmic “hum.”

This pre-universe didn’t contain matter or particles. It was a state of pure potential, gently vibrating. Then, something shifted: a portion of that potential energy redistributed itself, setting the stage for motion, structure, and the expansion of space itself.

This model proposes:

• The Big Bang as a transformation of pure energy—not a creation from nothing

• Gravity emerging from energy gradients—not just from mass

• Dark energy as a real consequence of this early energetic displacement

• And matter as a product of deeper energy restructuring

ECM provides a new language to describe how the universe evolved—from vibration to motion, from energy to matter.

This is not just a new theory—it’s a rethinking of where everything begins.
🌐 Read the full appendix: https://doi.org/10.13140/RG.2.2.13289.40801

#ECM #CosmicGenesis #Physics #VibrationalUniverse #DarkEnergy #SoumendraNathThakur #ScientificFramework

Gravitational Collapse, Quantum Boundaries, and the Planck Threshold: A Clarification from ECM

Soumendra Nath Thakur | June 14, 2025

In response to a thoughtful question by Carmen Wrede on whether the Planck scale functions as a universal resolution limit, even in low-gravity or flat regions of spacetime, I wish to clarify the ECM position:

📌 In Extended Classical Mechanics (ECM), the Planck scale is not viewed as a fixed “pixel size” of space. Rather, it is a latent energetic threshold—one that only becomes physically relevant when energy, frequency, or gravitational force approach extreme, near-infinite conditions.

🌀 It is not operative in regions of minimal curvature or low energy. Space remains continuous and force-defined until the Planck frequency

fᴘlank≈2.999×10⁴² Hz

is approached. Only then does spacetime collapse into pure kinetic oscillation—beyond which classical and quantum constructs dissolve.

🔁 In ECM, the Planck domain is a transformative boundary, not a constitutive one. It signals a point where all known forces unify, mass ceases, and energy becomes the sole physical currency, vibrating in a zero-dimensional state beyond structure.

🧠 This perspective aligns in spirit with Roger Penrose’s proposal that wavefunction collapse is gravitational, but goes further: in ECM, wavefunctions no longer apply beyond this threshold—only persistent energetic logic remains.

Further Reading:

📄 Appendix 8: Energetic Structures Beyond Planck Threshold and the Breakdown of Classical Action
🔗 http://dx.doi.org/10.13140/RG.2.2.35283.28960

🧾 Supplement A to Appendix 8: Gravitational Collapse of Quantum States and the Planck Threshold as a Classicalizing Boundary
🔗 https://www.researchgate.net/publication/392666360_Supplement_A_to_Appendix_8_Gravitational_Collapse_of_Quantum_States_and_the_Planck_Threshold_as_a_Classicalizing_Boundary

📘 Supplement B to Appendix 8: Interpretive Boundaries of the Planck Scale in Low-Energy and Flat-Space Regimes
🔗 https://www.researchgate.net/publication/392666477_Supplement_B_to_Appendix_8_Interpretive_Boundaries_of_the_Planck_Scale_in_Low-Energy_and_Flat-Space_Regimes

#ECM #QuantumGravity #PlanckScale #PenroseCollapse #GravitationalThreshold #SoumendraNathThakur #ExtendedClassicalMechanics #PhysicsFrontiers

Appendix 8: Energetic Structures Beyond Planck Threshold and the Breakdown of Classical Action.

Soumendra Nath Thakur

Tagore's Electronic Lab, WB, India

postmasterenator@gmail.com | postmasterenator@telitnetwork.in | June 13, 2025

Abstract

In classical physics, the relationship $W=F\cdot s$ defines work as force acting through space, and quantum theory introduces the Planck constant $h$ as the fundamental quantum of action. However, both frameworks become inadequate at frequencies approaching the Planck limit fᴘₗₐₙₖ​ ≈ 1.855 × 10⁴³ Hz. Extended Classical Mechanics (ECM) introduces a refined energetic domain where spacetime, mass, and classical action cease to function as defining constructs. This appendix presents a critical re-examination of action, frequency, and energy interactions beyond the Planck threshold. It describes the transition into a regime of super-Planckian energetic oscillations, where particle identity is lost, potential energy is instantly rendered kinetic, and only energetic wave behaviour remains. Importantly, this framework preserves energy conservation, albeit through abstract, non-quantized means, proposing a new proportionality constant k where h fails. Connections to published ECM materials and quantum-gravitational unification are included to support this conceptual and mathematical extension of physical theory.

1. Classical and Quantum Action Breakdown

In standard mechanics, physical work is defined as:

$$$$W = F⋅s

And in quantum mechanics, action is characterized by:

$$$$h ∼ E⋅t or h ∼ p⋅x

However, these frameworks both fail to accurately describe energy interaction at or beyond the Planck frequency threshold. At this scale, ECM shows that space and time are no longer stable constructs and classical action loses physical applicability. Instead, energy transforms instantly into a purely kinetic vibrational field, and conventional particulate carriers of momentum or mass cease to exist.

2. Energetic Environment Beyond Planck Scale

At the Planck boundary:

• Rest mass collapses; no material particle structure persists.

• Spacetime decomposes into non-local vibratory states.

• Potential energy cannot remain latent; it converts directly into immediate kinetic manifestation.

• Conservation of energy persists but not via classical measurable action.

This corresponds to a regime defined by:

$$$$Δf = f₀− fᴘₗₐₙₖ during t₀− tᴘₗₐₙₖ

Here, Planck's constant $h$ can no longer serve as a useful quantum of action. Instead, ECM postulates a separate constant $k$, governing super-Planckian transitions, which are described by pure oscillatory existence.

3. Unified Gravitational Field and Pre-Spacetime Oscillation

In this state:

• Energetic density approaches infinity.

• Gravitational influence becomes unbounded and self-unified.

• No classical force or rest mass structure exists.

• All known physical laws break down—except the principle of energy persistence.

ECM redefines this realm as a zero-dimensional oscillatory continuum, where:

• Time exists only as cyclical recurrence.

• Frequency becomes the sole parameter of physical distinction.

• Propagation trends toward superluminal oscillation—not via signal transmission, but via pure geometric vibration.

4. Physical Meaning of Super-Planckian Frequencies

Planck frequency fᴘₗₐₙₖ = 1/tᴘₗₐₙₖ does not mark the upper bound of energetic phenomena but rather signifies a dimensional transition zone. Observable high-frequency radiation such as:

• Ultra-high-energy gamma rays (e.g., 
  $Hz$lies far below this threshold.

• Beyond this, hyper frequencies may exist within a non-local, pre-physical substratum—functionally invisible under classical spacetime observation.

5. ECM Position: Beyond h, Beyond Mass, Beyond Force

ECM maintains:

• Conservation of energy continues beyond Planck boundaries.

• New constants must replace h in describing such energetic domains.

• Planck’s constant is a threshold, not a finality.

ECM thereby unifies gravitational, quantum, and energetic phenomena through oscillatory logic, not particulate behaviour.

List of ECM Appendices and Annexures

• Appendix A – Standard Mass Definitions in ECM

• Appendix 3 – Fundamental Total Energy in ECM

• Appendix 4 – Negative Apparent Mass and Mass Continuity in ECM

• Appendix 5 – Temporal Modulation vs Temporal Scale Variation in ECM

• Appendix 6 – Angular-Time Correspondence in ECM

• Supplement A – Interpretive Basis and Conclusion to Appendix 6

• Supplement A2 – External Commentary on Supplement A

• Appendix 7 – ECM-Specific Framework for Photon Sourcing and Emission Pathways

• Appendix 8 – Energetic Structures Beyond Planck Threshold and the Breakdown of Classical Action

Primary References (from Appendix 8 content)

1. Thakur, S. N. (2025). Appendix 3: Fundamental Total Energy in ECM. https://doi.org/10.13140/RG.2.2.21532.19841

2. Thakur, S. N. (2025). Mass-Energy Transformations in ECM. https://doi.org/10.13140/RG.2.2.24863.27040

3. Thakur, S. N. (2025). Periodicity and Phase Shift Dynamics between the Big Bang and Planck Time. https://doi.org/10.13140/RG.2.2.29274.25285

4. Thakur, S. N. (2024). Description of Planck Equation and Energy-Frequency Relationship. https://www.researchgate.net/publication/375416343

5. Thakur, S. N. (2024). Unified Quantum Cosmology: Exploring Beyond the Planck Limit with Universal Gravitational Constants. https://doi.org/10.32388/26u31c

6. Thakur, S. N. (2024). Why is 1° time interval (T) the smallest meaningful mathematical expression of the Planck frequency? https://doi.org/10.13140/RG.2.2.32358.40001

7. Thakur, S. N. (2023). Quantum Scale Oscillations and Zero-Dimensional Energy Dynamics. https://doi.org/10.13140/RG.2.2.36320.05124

8. Thakur, S. N. (2023). Energy Persistence Beyond Planck Scale. https://www.researchgate.net/publication/375488896

Additional References

• Thakur, S. N. (2025). Appendix A – Standard Mass Definitions in Extended Classical Mechanics (ECM). https://doi.org/10.13140/RG.2.2.31762.36800

• Thakur, S. N. (2025). Appendix 4 – Negative Apparent Mass and Mass Continuity in ECM. https://doi.org/10.13140/RG.2.2.10264.92165

• Thakur, S. N. (2025). Annexure 5 – Temporal Modulation vs Temporal Scale Variation in ECM. https://doi.org/10.13140/RG.2.2.35784.64009

• Thakur, S. N. (2025). Appendix 6 – Angular-Time Correspondence in ECM. https://doi.org/10.13140/RG.2.2.33048.51200

• Thakur, S. N. (2025). Supplement A to Appendix 6 – Interpretive Basis and Conclusion.

https://www.researchgate.net/publication/392591776_Supplementary_A_to_Appendix_6_On_the_Physical_Recasting_of_Angular_and_Temporal_Units_in_ECM

• Thakur, S. N. (2025). Supplement A2 – Commentary on Supplement A.

https://www.researchgate.net/publication/392591986_Supplement_A2_-_Commentary_on_Supplement_Apdf

• Additional references to standard photon physics, emission spectra, and synchrotron mechanisms as discussed in astrophysics literature (NASA, CERN reports, etc.)

Appendix 8 introduces a new frontier in theoretical physics through the Extended Classical Mechanics (ECM) framework

June 13, 2025

It addresses energetic structures that may exist beyond the Planck scale, where spacetime, mass, and the familiar concept of action no longer apply.

This technical report reconsiders the boundary defined by Planck’s constant $h$, proposing that in super-Planckian domains, a new proportionality constant $k$ may govern energy transformations. It describes a regime where all rest mass collapses, gravitational fields unify, and energy manifests purely through oscillatory motion, possibly at superluminal rates. Despite the collapse of classical physics, the law of energy conservation persists, ensuring continuity even beyond observable structures.

This work contributes to ECM’s ongoing development of a unified theory for energy, frequency, and gravitational embedding at the most fundamental levels of existence.

🧾 Full paper: http://dx.doi.org/10.13140/RG.2.2.35283.28960
📚 Related works: Appendices A–7 on ECM, photon dynamics, gravitational embedding, and time-energy correlation.