The force that binds sound in a material medium is typically the result of intermolecular interactions, such as electromagnetic forces, within the material itself. The tension or compressional forces in the medium propagate as sound waves, and their behavior is governed by the properties of the medium and the specific conditions of the wave.
When it comes to the properties of space beyond our universe, it is important to note that our current understanding of the universe is limited to what we can observe and measure. The properties of space and the existence of other universes or dimensions beyond our own are still topics of active scientific investigation and theoretical speculation.
In some speculative theories, such as certain variants of string theory or brane cosmology, it is suggested that there could be extra dimensions or hidden sectors of the universe that may influence the behavior of matter and particles. These additional dimensions might affect fundamental forces or the behavior of physical fields. However, it is important to emphasize that these ideas are highly speculative and currently lack direct experimental evidence.
In general, the effects of properties beyond our universe would depend on the specific theoretical framework being considered. These frameworks often involve mathematical models and hypotheses that attempt to explain phenomena at scales or in regions currently beyond our observational capabilities. The validation or refutation of these hypotheses would require further empirical evidence, observational data, and experimental tests that are currently beyond the scope of our knowledge and technological capabilities.
It is worth noting that scientific inquiry continues to explore and expand our understanding of the universe, and new discoveries and theories may emerge that shed light on the properties of space beyond our current understanding.