¹ Deep within an atom
Where its nucleus does hide
It defines how it will operate, when it
Encounters those outside

² But if we really look in close
And watch how it does work
We’ll find it so intriguing
'cause it never goes berserk ¹

³ Because there’s nothing random
Like Heisenberg once said
But rather, it’s sequential
And reliable instead

⁴ So—
One thing is for certain
Each byproduct that is made
Is highly predictable
Which "Uncertainty"* can’t evade

⁵ 'cause—
That could never happen
If its foundation were not reliable
Thus, radio isotopes do prove
That Certainty is undeniable!

⁶ The cobalt atom teaches us
From its radioactivity
As it repeats each sequential step
Machine-like, progressively

⁷ Radioactive elements
Expel things from within
The fields that make their nuclei
Where their energy's dug-in

⁸ According to a timed schedule
Called its "half life" just for starts
Manufactures particles from its internal fields
That make up all its parts

⁹ The concept of a half-life
From randomness don’t come
It follows a strict schedule
Like a ticking clock, for one

¹⁰ And since this all happens
When its nucleus does emit
The exact same kind of particle, from
Below its quantum limit

¹¹ Now, that isn’t supposed to happen
It’s all random they declare
Below that quantum limit
But that ain’t what’s working there!

¹² Radioactive cobalt
Ejects an electron (called a beta ray)
And an antineutrino right on time
Constructed the same way

¹³ Since there aren't supposed to be
Electrons within, just ones without
It must be manufactured
When it’s time to spit one out.

¹⁴ Again, that isn’t random
But pseudorandom and precise
Organized production
Of these particles— concise

¹⁵ First—
It’s a precision timed event
Triggers manufacturing
Dismantles part of the nucleus
To build each brand-new thing

¹⁶ It reorganizes energy
Into the new arrangement of
An electron and an antineutrino
Not some random thing to shove

¹⁷ Only then does it eject
But not haphazardly
With specific spin and axis
We can predict it mathematically

¹⁸ Like a right-handed quarterback
Who throws a forward pass,
Only consistently more accurate.
All the others does surpass

¹⁹ Timing, by its very nature
Is a sequential operation
That must be done in order
To work without a complication

²⁰ It does the same things every time
Predictable— each thing
Its spin, axis and direction
Kinetic energy and timing

²¹ Now you can’t tell me that’s RANDOM
The word just doesn't fit
It’s obvious the universe
Don’t work from randomness in it

²² So—
What does Heisenberg’s hypothesis *
Find missing in each place
It can’t explain what’s happening
In this never-ending race

²³ It has no mechanism for producing
Repulsion or attraction
Or particles of any kind
Let alone, consistency of action

²⁴ It has no way of counting time
Or executing a procedure
Right on schedule as it always does.
Based on nothing but conjecture?

²⁵ It has no way to get it right
Or remember how to do it
They can’t explain just how it works
Or knows just when to do it

²⁶ How does this have a bearing
On the Quantum Mechanic?
It manifests its basic flaws
Its foundation's in a panic!

²⁷ We’ve developed cool wave-functions*
That tell what’s going on
Deep within a structure
'cause they never get things wrong.

²⁸ This could not be possible
With true randomness— its base
For that would make it inconsistent
When we test each case

²⁹ So, if you have developed
Wave-functions * none-the-less
They must result from Certainty
Of its pseudorandomness

³⁰ Reality reveals it all
It’s in no way "Uncertain"
But Deep Reality does exist!
It’s ways are always Certain

³¹ I know this is contrary
To what’s commonly believed
It shows from what we have been taught
We've been thoroughly deceived

³² What is our last conclusion?
What needs to be repaired?
Quantum Mechanics needs the fixing
With pseudorandomness prepared

³³ The pseudorandomness of nature
Is shown to always be
A property of Resonant Fields in
This comprehensive new theory

³⁴ That’s why it finally has been fused
With Relativity
To yield a working T.O.E. ²
So we can all agree

Don't you just love the logical Resonant Field Theory!
It’s nice to finally get it right, isn’t it?