Turning mass into its motion and motion into its mass is Momentum
conservation. Where mass goes down but motion goes up in a perfect
balance. Motion goes down and mass goes up. This is momentum
conservation of a quantum particle as its motion is guided by its
wave.

Where the particle is found the least is where it is moving or
accelerating the fastest. Where it is found most is where it is moving
the slowest. It accelerates and decelerates through the motion
continuum of above zero motion to below light speed. The particles
wieghtless changing motion slows down time and it can be fast. This is
micro time. A slow time rate for any particle has no macro
consequence. It is true but it amounts to nothing. The particle does
the same thing as it always does and we will never measure its clock.


Mitch Raemsch Twice Nobel Laureate 2008

On Apr 5, 9:24 pm, wrote:
Turning mass into its motion and motion into its mass is Momentum
conservation. Where mass goes down but motion goes up in a perfect
balance. Motion goes down and mass goes up. This is momentum
conservation of a quantum particle as its motion is guided by its
wave.

Where the particle is found the least is where it is moving or
accelerating the fastest. Where it is found most is where it is moving
the slowest. It accelerates and decelerates through the motion
continuum of above zero motion to below light speed. The particles
wieghtless changing motion slows down time and it can be fast. This is
micro time. A slow time rate for any particle has no macro
consequence. It is true but it amounts to nothing. The particle does
the same thing as it always does and we will never measure its clock.

Mitch Raemsch Twice Nobel Laureate 2008

I'll nominate you for a 3rd Noble prize if
you send me some of that stuff you smoke.
Ken

On Apr 5, 9:45*pm, "Ken S. Tucker" wrote:
On Apr 5, 9:24 pm, wrote:





Turning mass into its motion and motion into its mass is Momentum
conservation. Where mass goes down but motion goes up in a perfect
balance. Motion goes down and mass goes up. This is momentum
conservation of a quantum particle as its motion is guided by its
wave.

Where the particle is found the least is where it is moving or
accelerating the fastest. Where it is found most is where it is moving
the slowest. It accelerates and decelerates through the motion
continuum of above zero motion to below light speed. The particles
wieghtless changing motion slows down time and it can be fast. This is
micro time. A slow time rate for any particle has no macro
consequence. It is true but it amounts to nothing. The particle does
the same thing as it always does and we will never measure its clock.

Mitch Raemsch Twice Nobel Laureate 2008

I'll nominate you for a 3rd Noble prize if
you send me some of that stuff you smoke.
Ken- Hide quoted text -

- Show quoted text -

Quantum particles as a result of their waves are accelerating and
decelerating. They have continously changing weightless motion. But
mass gets interchanged and momentum is conserved. QM is momentum
conservation.

Mitch Raemsch