⭐ Centripetal Force and Centrifugal Force as Combination Forces in PPC Gravity

⭐ Centripetal Force and Centrifugal Force as Combination Forces in PPC Gravity

In the PPC Law of Gravity, neither centripetal force nor centrifugal force exists as a single independent force. Instead, both are emergent forces formed by the combination of several underlying pressure-based and inertial contributions. This makes PPC gravity fundamentally different from Newtonian mechanics, which treats centripetal force as a single applied force and centrifugal force as a fictitious effect.

1. Centripetal Force as a Combination of Inward Forces

In PPC gravity, centripetal force is the net inward effect created by multiple contributions acting together. These include:

✔ Gravitational Pressure

The primary inward pressure created by energy density.

✔ Pressure Gradient Force (Field Force)

Spatial variation in gravitational pressure generates inward acceleration.

✔ Surface Pressure (Surface Force)

Pressure acting across the internal surfaces of matter layers inside planets and stars.

✔ Structural/Stability Forces

In solid bodies, internal stresses and cohesion add additional inward support.

✔ Curvature Pressure Requirement

Curved geodesics require a continuous inward pressure to maintain the curvature of motion.

Thus:

Centripetal force in PPC is the combination of all inward pressure-driven forces necessary to maintain curved geodesic motion.

There is no “single centripetal force” in nature.

It is the resulting inward vector of multiple fundamental PPC forces.

2. Centrifugal Force as a Combination of Outward Effects

Centrifugal force in PPC is not a real external force but the combined outward effect of inertia interacting with curvature produced by pressure.

It arises from:

✔ Inertial Resistance to Curvature

Matter naturally resists the pressure-generated curved trajectory.

✔ Rotational Motion

Rotation increases outward inertial response.

✔ Geometric Radius of Rotation

Outward effect is stronger where curvature radius is larger (equator) and weaker where it is smaller (poles).

✔ Local Pressure Field Weakening

If inward gravitational pressure is weaker than rotational inertia, outward effects become noticeable.

Thus:

 Centrifugal force in PPC is the combined outward inertial effect resulting from resistance to the pressure-generated curvature of spacetime.

Again, it is not a single force — it is a composite outward effect created by inertia + geometry + rotation.

⭐ 3. The PPC Balance Between the Two Combination Forces

Rotational systems achieve equilibrium when:

Combined inward forces

(gravitational pressure + pressure gradient + surface pressure)

balance:

Combined outward effects

(inertial resistance + rotational geometry).

This balance determines:

planetary shape,

orbital motion,

equatorial bulging,

stability of stars,

atmospheric behavior,

rotational geodesics.

⭐ 4. How PPC Law Redefines These Forces

Traditional physics:

Centripetal force = single inward force

Centrifugal force = fictitious outward force

PPC physics:

Both are combination forces

Both arise from pressure-driven curvature interacting with inertia

Both have physical meaning in shaping motion and structure

This gives a deeper causal explanation that unifies:

gravity

motion

rotation

pressure

curvature

into a single pressure-based framework.

⭐ 5. Final Summary of my Research Papers

In PPC gravity, centripetal force and centrifugal force are not single forces but combined effects arising from the interaction between gravitational pressure, pressure gradients, surface pressure, and inertial resistance to curvature.

This is a powerful, elegant scientific statement that clearly distinguishes PPC from Newtonian and purely geometric GR interpretations.