Spacetime Waves and Object Motion – A New Perspective on the Fundamentals
When you throw a ball, the space surrounding the object is no longer still. Instead, wave-like oscillations emerge and propagate from the point of impact. These oscillations are spacetime waves. The important point is: the object does not “fly away” by force, but rather slides along the very spacetime wave it has generated. It slides and simultaneously spins, much like the planets. The wave propagates—and the object moves in the direction of that wave, like a boat gliding on water waves.
Spacetime is a unified entity, a combination of space and time. When we observe that time passes differently on Earth and in satellites, we have evidence that spacetime is not flat—it is curved or oscillating. Earth does not rotate and travel like an isolated block; instead, it slides along a field of spacetime waves. That is why it both rotates on its axis and moves around the Sun.
If spacetime waves truly exist, we should be able to detect them by measuring subtle time shifts—just like how one might deduce the existence of an invisible vehicle: even if we don’t see the vehicle, knowing the speed of the person allows us to infer the speed and presence of what they’re riding. Spacetime waves are the same—we cannot see them, but we can perceive and measure them through time. If the existence of spacetime waves can be proven, humanity will unlock an era of futuristic technologies, such as space travel and antigravity.