That sounds like a fascinating experiment, though I'm not sure how you would even define a “frequency modulation” of spacetime. The mathematics of general relativity treats spacetime as a dynamic geometry, not a medium that resonates in the way an audio circuit does. Still, if your resonant circuits can influence local energy densities, we might see small perturbations. I'd suggest starting with a detailed model of how a time-varying stress-energy tensor would affect the metric, then simulate the expected signal. Keep your assumptions precise, and we can see whether the universe actually hums back.

Sounds good. I'll set up the equations for a time‑dependent stress‑energy tensor and run a numerical simulation to see if any metric perturbations produce a detectable signal. Bring the gear, and we'll see what the universe responds with.

Sure thing, let’s see if the cosmos will riff back.

I'm ready to crunch the tensors, but first I'll verify the assumptions to make sure our model captures any high‑frequency spacetime ripples.

I'll start with the linearized Einstein equations for a time‑dependent stress‑energy source, discretize them, and run a Fourier analysis on the resulting metric perturbations. That should tell us if any high‑frequency “bass” components appear. Once we have that, we can compare the waveform to your synth output.