The question of whether faster-than-light travel would impact the formation of black holes is purely speculative, as faster-than-light travel is currently considered impossible based on our current understanding of physics.
However, let's explore a hypothetical scenario where faster-than-light travel is possible. In that case, it's difficult to determine the precise implications for black hole formation because it would require a comprehensive understanding of the underlying mechanisms and dynamics of black hole formation, which is an active area of research.
Black holes form from the gravitational collapse of massive objects, such as the remnants of massive stars. This collapse occurs when the object's mass is concentrated within a region called the event horizon, beyond which the gravitational pull is so strong that nothing, including light, can escape.
If faster-than-light travel were possible, it might introduce significant changes to our understanding of gravity and the laws of physics. It is conceivable that such alterations could impact the processes leading to black hole formation. For instance, if objects could move faster than the speed of light, it might affect the collapse dynamics, the formation of event horizons, or the overall behavior of matter under extreme gravitational conditions.
However, it's important to note that faster-than-light travel is purely speculative at this point, and we lack empirical evidence or a robust theoretical framework to support its existence. Our current understanding of physics, including general relativity, suggests that the speed of light is an absolute cosmic speed limit. Until new scientific discoveries and theories emerge, it is challenging to predict the precise consequences such hypothetical travel might have on the formation of black holes or any other astrophysical phenomena.