According to our current understanding of physics, it is not possible for objects with mass to travel faster than the speed of light in a vacuum. This limitation is described by Einstein's theory of relativity, which forms the foundation of modern physics.
there is no scientific evidence or theoretical framework suggesting that we can surpass the speed of light. The theory of relativity has been extensively tested and has consistently shown its accuracy in numerous experiments and observations.
While there have been speculations and theories about hypothetical concepts like wormholes, warp drives, or faster-than-light particles called tachyons, they remain purely speculative and lack empirical evidence.
It is essential to note that scientific progress can bring new insights and challenges existing notions. The realm of physics is continuously evolving, and our understanding may change with new discoveries or advancements in theoretical physics. However, currently, traveling faster than light remains firmly outside the realm of what is known and supported by scientific evidence.
It is worth mentioning that there are ongoing efforts to explore faster means of space travel within the boundaries of known physics, such as the concept of ion propulsion, solar sails, or nuclear propulsion systems. While these methods can potentially increase spacecraft speeds compared to conventional chemical propulsion, they are still limited by the speed of light.