According to our current understanding of physics, it is not possible for an object with mass to travel faster than the speed of light in a vacuum. This is a fundamental principle of special relativity, as postulated by Albert Einstein. The speed of light in a vacuum, denoted by "c," is considered to be the cosmic speed limit.
If an object were to somehow exceed the speed of light, it would violate several established principles of physics, including causality and the conservation of energy and momentum. It would lead to paradoxes and contradictions, such as time travel into the past, which are not consistent with our current understanding of the universe.
When it comes to scientific thinking, the general consensus among physicists is that objects with mass cannot achieve or exceed the speed of light. This conclusion is supported by a wealth of experimental evidence and theoretical consistency with the framework of special relativity.
However, it's worth noting that scientists are always open to revising their understanding of the universe if new evidence or theories emerge. While faster-than-light travel remains firmly in the realm of science fiction at present, scientific research continues to explore the frontiers of physics and challenge our current understanding of the laws of nature. Future discoveries may bring about new insights, but until then, the consensus is that faster-than-light travel is not feasible for objects with mass.