“A muon is a fundamental particle similar to an electron. But. About 200 times heavier and much less stable. It exists only briefly before decaying into lighter particles, making it a useful probe for studying subtle effects in particle physics. Credit: Shutterstock” (ScitechDaily, Scientists Were Wrong About This Strange “Rule-Breaking” Particle)
The question about the centrifugal force is this: could some form of centrifugal force be the missing fifth force? This means that there could be a quantum version of the centripetal force. The force that makes an electron send a photon outside its trajectory. That effect causes a lower energy state for the electron’s outer side. And that pulls the electron away from the atom’s nucleus.
The Muon G-2 test didn’t bring evidence of the fifth force. However, it could provide a hint for the centrifugal force, or its quantum model. When a muon orbits the center of the cyclotron, it sends a photon. Just like electrons make. This phenomenon forms a small quantum of low pressure at the point where the photon, or wave that turns into a photon, leaves. That low pressure has an effect on the trajectory of the muon. The muon is a short-lived particle. That means the radiation. That it sends is stronger than in the case of an electron.
And that pulls muon away. So there could be some unpredictable energy field that caused the unexpected effect on the muon’s trajectory. The muon itself is a fermion. similar to an electron, but much more massive. We can see the results of the Muon G-2 anomalies, and we can make two conclusions. The anomaly was in the limit. Or it was on the edge of the unpredictable and predicted. This means that those results are “almost, but not certainly”. This means that today reseachers have not found the fifth force.
But. Theories. Like the Grand Unified Theory (GUT) and the Theory of Everything (TOE). Try to explain that the four fundamental interactions are a form of one force. At the theoretical level, we can say that by using the electroweak interaction. The energy or photons should travel from the gluon to the Z boson and then to the W boson, which transports energy into the electron. Electron sends a photon. Out from the atom. And that thing can cause the electromagnetic low pressure near electrons. That explains the gravity.
There is a possibility that gluons. Could. Have a spin motion. Which means they can send photons. There is a small part in an atom. That researchers don’t know. This makes it impossible to fit. Quantum gravitation and Newtonian dynamics together. This causes one of the most interesting questions. Could centrifugal force be the thing that we could call the fifth force?
Centripetal force is the virtual force. That forms the situation. The smaller object orbits the larger one. The recessive object stores kinetic energy in it. And that energy keeps the object in its orbit.
The fact is. That seems very far-fetched. But then. We can think that when a less massive object orbits the gravitational center, the secondary, or the less massive object, collects gravitational waves. Into the form of a deep ditch just behind the secondary object. That shadow pulls the object away from the gravitational center.
Another form. Could be.That. The quantum fields around the gravitational centers hit together. Both of those objects have their own gravitational pothole. And that packs quantum fields against both of them. That causes a situation. Where those fields push each other away. In this model, the orbiting gravitational centers form the energy hill around the gravity pothole. That hill also denies. The object. To fall to the gravity center. Those things can seem nonsensical.
But the problem is that they all form centrifugal force. This means that the uniting gravity waves could cause the other object to travel away from the gravity center. This requires a very deep gravity ditch at the opposite side of the recessive object.
But this means. That gravity might not be one single interaction. We can think. That. Gravitation is a wave movement that is between the second and third dimensions. This low-energy radiation forms the ditch that we call gravitational waves. That happens when the low-energy radiation pulls energy out. From the higher energy radiation. This explains why gravitational waves. Turn weaker. When the distance to the gravitational center grows.
https://scitechdaily.com/scientists-were-wrong-about-this-strange-rule-breaking-particle/
https://en.wikipedia.org/wiki/Centrifugal_force
https://en.wikipedia.org/wiki/Electroweak_interaction
https://en.wikipedia.org/wiki/Fundamental_interaction
https://en.wikipedia.org/wiki/Muon
https://en.wikipedia.org/wiki/Muon_g-2
https://en.wikipedia.org/wiki/Standard_Model
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