Post by Pincho Paxton on Jan 19, 2024 13:03:17 GMT
Link...
Towards the quantum of sound
Pincho says...
Propagation always includes 'Dark Physics', because matter only exists in fleeting moments from when it is built to when it moves again. When something moves it needs physics to get it from point A to point B. Those physics are most likely tunnels that we never observe. We never observe them, because we don't even exist during the tunnel stage. The particles around us are synchronised to that tunnel stage by gravity, so we can observe the tunnels in our own gravitational field. At C a gravitational field for speeds such as sound covers a large area, so sound waves divide up into C many times, which means that we can't observe propagation very well at all. We only observe the points in time when our observation tools exist. We share a loop with existence, and fail to observe the loop that exists between one frame to the next. It's a lot like computer code which can draw 1000 sprites all at the same time, but in the code they were built in a sequence. Built in a sequence but observed at the same time as each other... gravity does that too, but at C, so sprites drawn at C, and built at C... we just skip out a lot of physics with observation.
So how do you really observe a quantum of sound when you don't exist when you wish to observe it?
Inertia has dark physics.
Angular momentum has dark physics.
Speed has dark physics.
Velocity has dark physics.
The future even has some dark physics, because one step of the future is built during our present time ready for us to move into.
A computer program can display the dark physics however... if you get it right.
Pincho Paxton
Towards the quantum of sound
Pincho says...
Propagation always includes 'Dark Physics', because matter only exists in fleeting moments from when it is built to when it moves again. When something moves it needs physics to get it from point A to point B. Those physics are most likely tunnels that we never observe. We never observe them, because we don't even exist during the tunnel stage. The particles around us are synchronised to that tunnel stage by gravity, so we can observe the tunnels in our own gravitational field. At C a gravitational field for speeds such as sound covers a large area, so sound waves divide up into C many times, which means that we can't observe propagation very well at all. We only observe the points in time when our observation tools exist. We share a loop with existence, and fail to observe the loop that exists between one frame to the next. It's a lot like computer code which can draw 1000 sprites all at the same time, but in the code they were built in a sequence. Built in a sequence but observed at the same time as each other... gravity does that too, but at C, so sprites drawn at C, and built at C... we just skip out a lot of physics with observation.
So how do you really observe a quantum of sound when you don't exist when you wish to observe it?
Inertia has dark physics.
Angular momentum has dark physics.
Speed has dark physics.
Velocity has dark physics.
The future even has some dark physics, because one step of the future is built during our present time ready for us to move into.
A computer program can display the dark physics however... if you get it right.
Pincho Paxton