Modern physics is stuck in the four-dimensional perspective of space-time due to their reliance on four-dimensional instrumentation. Although the data from a four dimensional perspective is useful and valid, it needs to be conceptualized from a five-dimensional perspective to be fully understood.
David Thomson's answer to What is an electron probability cloud? - Quora:
'via Blog this'
Secrets of the Aether updates. My latest observations, theories, and thoughts concerning quantum physics and consciousness.
Wednesday, May 30, 2018
Saturday, May 19, 2018
What Can the Death of a Neutron Tell Us About Dark Matter?
I don't understand why they (physicists) don't admit that anti-neutrinos are dark matter? When a neutron decays, the total angular momentum of the neutron, minus the angular momenta of the resulting proton and electron, leaves an angular momentum value equal to about 1.5 times the angular momentum of the electron. This angular momentum that is 1.5 times the angular momentum of the electron is the anti-neutrino.
I explain this in greater detail in Secrets of the Aether under the subheading of Neutrino.
The fact that a particle with more mass than the electron just disappears without interacting further with visible matter is very strong evidence for dark matter. This is exactly how dark matter is expected to behave. So why is the anti-neutrino not considered to be dark matter?
What Can the Death of a Neutron Tell Us About Dark Matter?:
'via Blog this'
I explain this in greater detail in Secrets of the Aether under the subheading of Neutrino.
The fact that a particle with more mass than the electron just disappears without interacting further with visible matter is very strong evidence for dark matter. This is exactly how dark matter is expected to behave. So why is the anti-neutrino not considered to be dark matter?
What Can the Death of a Neutron Tell Us About Dark Matter?:
'via Blog this'
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