Equations Temporal Gravity

1. Equation for Rate Gravity:

   F = (r_b - r_a) / (t_b - t_a)^2

2. Equation for Rate Gravity at the Emergence of Space:

   F = (t_{i+1} - t_i)^2 * (r_j + 2 * (Δr * Δj)) / ((dS / dt) * (r_{i+1} - r_i))

3. Gravitational Field Tensor (G) with Temporal Waves:

   G(i, j, k) ≈ -(t_{i+1} - t_i)^2 * (r_j + 2 * (Δr * Δj)) / (2 * c)^2 * (dS / dt)

4. Extended Gravitational Field Tensor with Amplitudes, Frequencies, and Space Emergence:

   G(i, j, k) ≈ -Σ(a_i^2 * ω_i^2 * W[i, j, k]) / (2 * c^2) * Σ(a_i^2 * ω_i^2 * S * V) / (2 * c^2) * g(i, j)

5. Final Gravitational Formula in terms of Amplitude, Frequency, Space Emergence, and Gravitational Constant:

   F = -Σ(a_i^2 * ω_i^2 * ΔS) * Σ(a_i^2 * ω_i^2 * S * V) * g(i, j)

6. Equation for Space Emergence:

   S(t) = | r_1(t) |

          | r_2(t) |

          | r_3(t) |

7. Equation for Spacetime Emergence from Rate Interactions:

   S(i) = ∑ [R(j) * Δt]