GW150914 Black Hole Merger Simulation

Simulated using the Kinetiverse framework (F=ma, E=mc) on August 08, 2025.

Merger Description with EM Energy Wave

The GW150914 event, detected on September 14, 2015, represents the merger of two black holes in the Kinetiverse framework. The process unfolds as follows:

• Inspiral Phase (0 to ~0.18 s): Two black holes, with masses 36 M☉ and 29 M☉, orbit each other at an initial separation of 350 km. Spatial acceleration (F=ma) intensifies as the orbit shrinks, coupled to temporal energy (E=mc) dissipation. The EM energy wave, a manifestation of varying 'c' due to mass-energy transformation, exhibits a rising frequency from 35 Hz, reflecting increasing angular velocity. The strain signal grows steadily, peaking at approximately 1.5 × 10⁻²¹.
• Merger Phase (~0.18 to 0.2 s): At a critical separation of ~10 km, the black holes coalesce rapidly. The spatial-temporal coupling reaches its maximum, converting ~3 M☉ of mass into temporal energy. The EM energy wave peaks sharply, with a maximum amplitude of 1.5 × 10⁻²¹, as the angular velocity surges, emitting a intense but brief signal.
• Ringdown Phase (~0.2 to 0.3 s): The resulting black hole, with a mass of ~59.4 M☉ and spin of ~0.69, stabilizes its spatial-temporal dynamics. Residual temporal fluctuations decay exponentially, producing a damped EM energy wave that fades below 10⁻²³ within ~0.1 s.

This EM energy wave, detected by LIGO, is a Kinetiverse reinterpretation of the gravitational wave signal, driven by entangled space-time dynamics rather than spacetime curvature.

Initial Parameters

Results