Reimagining the First Force Through the Lens of Energy Propagation
“Not all revolutions begin with a bang—”
Some start with the third derivative of an object’s position with respect to time, or the first derivative of its acceleration.
— CA Foundational Insight
The Premise
What if gravity isn’t a force — but a side effect?
What if objects fall not because spacetime curves, but because the speed of energy transmission varies from place to place?
This is the core insight of the Charge Admittance (CA) model:
\Gravity is a gradient in the medium’s ability to transmit energy.
Just as sound bends in wind or light refracts in glass, energy curves toward slower paths. In this view, “falling” is a natural consequence of energy seeking equilibrium in a structured, impedance-defined vacuum.
The Governing Relation
At the heart of this idea is a deceptively simple expression:
![\[ \setlength{\fboxrule}{1pt} % Default is 0.4pt \fbox{ \parbox{10em}{ \centering \Large $g_v = -\dfrac{dc}{dx}$ } } \]](https://gravityz0.com/wp-content/ql-cache/quicklatex.com-b286ee9b8e69dff4dee6880b891a5720_l3.png "Rendered by QuickLaTeX.com")
Where:
- gv is the gravitational vector (field strength),
- dc/dx is the spatial gradient in the local speed of energy propagation.
In plain terms: where energy moves slower, acceleration occurs.
The vacuum is not empty; it is a medium with structure — a responsive field whose stiffness defines the local value of c, the speed at which energy events (like photons) unfold.
Key Shifts in Thinking
CA Gravity
The CA Theory posits that the underlying mechanism of gravity is intricately related to energy, rather than solely mass. Gravity arises from the change in energy speed as it traverses variations in the impedance of space, leading to gravitational attraction. This concept offers a fresh perspective, linking gravity directly to the dynamic properties of energy propagation.
Gravity as Optical Gradient
Space doesn’t curve; it thickens.
Mass alters the vacuum’s impedance, slowing local energy speed. Objects then follow the steepest descent in energy flow — what we observe as gravitational acceleration.
Quantization of Gravity
By utilizing energy as the basis for both fundamental attraction and energy flow through space, CA Theory addresses the quantization of gravity. This framework bridges the gap between microscopic quantum phenomena and the macroscopic effects of gravity, offering a unified understanding of the fundamental forces governing the universe.
Two-Fields Solution
CA maintains that gravity has both an instantaneous component and a delayed component, attributed to the propagation of gravity waves. This dual-component view aligns with aspects of current theoretical physics and offers insights into the dynamics of gravitational interactions over cosmic scales.Time Emerges from Structure
Time is not a backdrop but a result — the accumulated sequence of energy events (sprits) in a field with memory. Coherent propagation defines time’s arrow.
Photons as Events, Not Things
In CA, a photon is not a persistent particle, but a spike — a transient release caused by an impedance mismatch. Its “wave” is the field’s structured memory of that event, not its body in flight.
Why This Matters
- It unifies gravity, light, and vacuum structure under a single framework.
- It removes the need for spacetime curvature to explain motion.
- It suggests testable consequences, such as energy-dependent variation in local light speed or field propagation asymmetries near large masses.
This isn’t metaphysics. It’s physics — remapped through admittance, not geometry.
Final Thought
The line “Gravity in a new light” began as a pun.
Now it is a literal reframe:
Gravity is light — slowed, structured, redirected by the vacuum itself.
If mass changes the medium, and the medium sets the pace of energy,
then falling is simply following the path of least impedance.
And this is where the CA story begins . . .