Free Web NovelChapter 675: Chapter 377: Theory of Mass-Energy Structure_2
"I’m simply telling it like it is."
Sheldon Glashow said, "I admit, the mathematical framework on the stage is very perfect, but perfection does not necessarily mean correctness, as there is a lack of discussion on mass, sidestepping potentially problematic areas; it is more apt to refer it as ’Energy Argument of the Supersymmetry Problem’."
"Whew..."
The others also reacted, and immediately, the room plunged into discussion. freeωebnovēl.c૦m
What Sheldon Glashow said was indeed reasonable and hit key points. But, whether it invalidates Zhao Yi’s achievement is another matter; just discussing from the perspective of energy alone is already impressive.
If mass were indeed introduced, it would certainly be a major achievement that would shake the physics community.
"The discussion on energy composition is enough."
"Zhao Yi’s theory originates from the perspective of energy composition. He has created a perfect mathematical framework."
"Mass is a different issue."
"Even in experiments, the particle’s mass is often negligible."
"If we expand to include neutrons, protons, where 99% of their composition is due to strong interactions, discussing from the perspective of energy is not incorrect."
"..."
Most people still stood with Zhao Yi, although they did feel that the issue of not including mass made it seem slightly incomplete.
Edward Witten then engaged in a debate with Sheldon Glashow, "The issue of introducing mass is irrelevant to the current presentation. Zhao Yi and I have always been conducting research on the boundaries of multidimensional spaces. The energy perspective on the Supersymmetry Problem is a part of our research, the next phase is introducing mass."
Others nodded in agreement upon hearing this.
Truly.
All research is progressive. Introducing mass would undoubtedly complicate the problem. Having established the theory from the energy perspective and moving on to include the mass topic is a normal research process.
Glashow contemptuously said, "That’s your problem, I’ve just raised a question." He even added, "Research on multidimensional space? Are you planning to band together to tear through space and let the Decepticons conquer Earth?"
Edward Witten gritted his teeth and replied, "Exactly, you guessed it right. Our ultimate goal is to disassemble you, an obstinate, ugly, and annoying old man."
"Perhaps Megatron will help me." Glashow smirked unconcernedly.
On the stage.
Zhao Yi remained silent for a long while, his brows tightly furrowed, he kept muttering, "Mass will cause spatial fluctuation... Mass will cause spatial..."
"Spatial fluctuation caused by mass?"
"According to Einstein’s theory, spatial fluctuation creates gravitation. But, why would space fluctuate? Could it be more of spatial repulsion rather than fluctuations caused by mass?"
He had a sudden epiphany while pondering, "Why would spatial repulsion occur? According to Edward’s theory, mass is a higher-dimensional matter, and lower dimensions repel higher dimensions..."
"Hence space repels and compresses mass, resulting in gravity."
"Two objects repelled and compressed by space in the same way will produce mutually attractive oscillating waves, also known as gravity."
"Gravity is weak (relative to strong forces) because the ’density’ of three-dimensional space is fixed..." ƒгeeweɓn૦vel.com
"If so, the logic of mass should cause resonance or other reactions on the boundary of multidimensional space, resulting in particles being endowed with mass, or mass being squeezed into a three-dimensional space..."
Zhao Yi was completely absorbed in his train of thought.
The product of mass in higher dimensions will be repelled by the three-dimensional space, which can explain why objects with mass move slower than pure energy.
For instance, photons are massless. As they’re made up of pure energy, they can reach the speed of light.
If you take a particle with mass, as long as it has mass, it cannot reach the speed of light. That is to say, the speed of light is the fastest speed in a three-dimensional space. Particles with mass are constantly subjected to spatial repulsion. The stronger the repulsion, the lower the maximum speed they can reach.
This spatial repulsion can be understood by downgrading dimensions.
For example, if you place a sphere in a two-dimensional space, only an infinitesimal part of it exists within the two-dimensional space, with the more abundant remaining portion existing in three dimensions. Therefore, its movement in two dimensions is impeded by the component that exists in three dimensions.
"This understanding might not be quite right..."
Zhao Yi pondered, hesitated, and finally shook his head. Investigating using three-dimensional imaginations is ultimately less reliable than mathematical proof.
He made his move.
After Sheldon Glashow raised his doubts, Zhao Yi stood on the podium for several minutes, causing concern among the others. When the host approached to ask if he was okay, he subconsciously shook his head, indicating he was fine.
Now, Zhao Yi suddenly turned around, picked up the black pen, and began writing on the large whiteboard. Row after row of complex content appeared.
The venue fell silent.
Others did not know what Zhao Yi was up to and watched attentively as he wrote.
At first, Zhao simply recapped the already-analyzed content of his Energy Argument. Later, he added new elements into the equation, followed by calculation, calculation, and more calculation...
"What is he calculating?"
"It seems he added some new elements, but it looks like he’s performing calculations based on a fermion’s energy structures?"
"It must be related to fermions."
Edward Witten, having grasped most of it, confidently stated, "He is assigning domain values to the energy points of fermions, that is, further subdividing them." He then added, unsure of his thoughts, "Perhaps it’s targeted towards different particles?"
