A Hypothesis on the Explosive Transformation of Mass Defect in Nuclear Reactions | See Description

Описание: Download the full paper here:
https://archive.org/details/newphysic...

This paper proposes that the mass defect in nuclear reactions undergoes an explosive transformation into a fine form of matter, accelerating reaction products. Observed mass defects in astrophysical events, such as stars and supernovae, suggest space is permeated by this fine matter. This medium may offer alternative explanations for relativistic effects like length contraction and mass increase with speed, challenging mass-energy equivalence and special relativity. A model is proposed to describe kinetic energy distribution among reaction products, with implications for nuclear physics, astrophysics, and cosmology.

Introduction

In nuclear physics, mass defect explains energy release in reactions and is traditionally interpreted by Einstein’s mass-energy equivalence. In atomic nuclei, this defect arises from the difference between the total mass of protons and neutrons and the nucleus’s measured mass. This mass difference is linked to binding energy, essential in nuclear reactions where mass-to-energy conversion is thought to occur, as observed in fission and fusion.

Special relativity connects mass and energy, predicting that time and length vary with an object’s speed. Supported by the Michelson-Morley experiment, the theory rejects a pervasive "ether" medium, instead proposing light speed is invariant across frames. This study suggests an alternative view: mass defects may not directly convert to energy but instead transform into fine matter, whose explosive release drives reaction products.

High kinetic energy, back-to-back emission, and recoil effects in fission and fusion suggest an internal explosion in the nucleus, where missing mass converts into fine matter, explaining observed energy release as kinetic motion. Extending beyond nuclear reactions, this hypothesis implies that mass defects across the universe could fill space with fine matter, impacting moving objects and offering an alternative view of relativistic effects.

Methods

We analyze spontaneous nuclear fission, comparing high kinetic energies and emission patterns with explosion dynamics. Observed behaviors, including high fragment velocities and back-to-back emissions, align with an explosive transformation model, where mass defects create kinetic energy in reaction products.

Modeling

The hypothesis suggests that fine matter in space could affect moving objects, creating drag that produces effects like length contraction and mass increase near light speed. This differs from special relativity’s geometric view, attributing these effects to interactions with a medium, introducing a physical basis for the universal speed limit.


Conclusion

This study offers a new perspective on nuclear fission and relativistic effects, proposing that mass defects explosively transform into fine matter, which may unify nuclear and relativistic phenomena through a single physical mechanism. By providing a tangible basis for drag, mass increase, and length contraction, this model challenges established theories and suggests experimental paths to validate its predictions.
My books:

Mass Defect Transformed Into an Extremely Thin Form of Matter: This Matter Fills the Entire Universe:
Kindle Edition:
https://www.amazon.com/dp/B0CTHTHZ13
Print book: https://www.amazon.com/Mass-Defect-Tr...

Structure of the Atom: Electrons in a Non-Excited Atom Are Motionless:
Kindle Edition:
https://www.amazon.com/dp/B0CYXPM4HL

Print book: https://www.amazon.com/Structure-Atom...

Aether Exists: It Opens Up a Whole New Physics: Every Mass Defect in the Universe Is Converted into Aether:
Kindle Edition:
https://www.amazon.co.uk/dp/B0BWZGW4S5

Print book:
https://www.amazon.co.uk/Aether-Exist...