The concept of ripping the space-time continuum is largely speculative and remains hypothetical within the realm of current scientific understanding. According to our current understanding of general relativity, the fabric of space-time is a smooth and continuous entity. However, it is important to note that our understanding of the fundamental nature of space-time is incomplete, especially in the extreme conditions that exist in certain regions of the universe.
Wormholes, which are theoretical constructs within the framework of general relativity, are often described as shortcuts or tunnels that connect different regions of space-time. They are hypothesized to be a consequence of the geometry of space-time, where a "bridge" or shortcut is formed between two distant points.
The formation and existence of wormholes are still highly speculative and remain purely theoretical at this point. While wormholes are mathematically allowed within the equations of general relativity, their stability and the mechanisms by which they could form are still not fully understood. It is also important to consider that wormholes, if they exist, would likely require exotic forms of matter or energy with properties not yet discovered or understood.
Regarding the formation of wormholes along with our universe, there is currently no scientific evidence or consensus on the origin or presence of wormholes in the early universe. The formation of wormholes is a complex topic that requires a deeper understanding of quantum gravity and the fundamental nature of space-time. As our knowledge and understanding of these areas evolve, our understanding of wormholes may also change.