I am slowly but surely proving it wrong.
The Heisenberg Unceartainty principle. With excessive calculations, I have come up with all of the figures, and now proving them correct.
Here is the thought experiment-(directly out of my notebook)(don't mind kg or g)
What if a 10 g object radiates 1 g of mass per second with a clock 3.2 meters away, moving at .2 m/s towards the object? Wouldn't the Heisenberg Unceartainty Principle be wrong?
In these calculations, I assumed c to be 3x10^8. I calculated the time dilation to be .00...1, and the shortening of mass to be .00...1(same as the time dilation). So, all I am doing now is altering the velocity a small bit to make the force of gravity equal when the radiation is let out. And thus, the Heisenber Unceartainty Principle is wrong(I know the time and the Energy)
-By the way, I have integrated the acceleration due to gravity changes-
The Heisenberg Unceartainty principle. With excessive calculations, I have come up with all of the figures, and now proving them correct.
Here is the thought experiment-(directly out of my notebook)(don't mind kg or g)
What if a 10 g object radiates 1 g of mass per second with a clock 3.2 meters away, moving at .2 m/s towards the object? Wouldn't the Heisenberg Unceartainty Principle be wrong?
In these calculations, I assumed c to be 3x10^8. I calculated the time dilation to be .00...1, and the shortening of mass to be .00...1(same as the time dilation). So, all I am doing now is altering the velocity a small bit to make the force of gravity equal when the radiation is let out. And thus, the Heisenber Unceartainty Principle is wrong(I know the time and the Energy)
-By the way, I have integrated the acceleration due to gravity changes-