The behavior of strange matter inside a black hole is not precisely known since our understanding of strange matter and the behavior of matter under the extreme conditions inside a black hole is still speculative. However, I can provide some insights based on current scientific knowledge and theoretical considerations.
Strange matter is a hypothetical form of matter composed of quarks, specifically strange quarks. It is postulated to be more stable than normal matter, and under certain conditions, it could convert ordinary matter it comes into contact with into strange matter.
When strange matter interacts with a black hole, several possibilities arise:
Absorption: If strange matter comes close to a black hole's event horizon, it will be subject to the immense gravitational pull of the black hole. The intense gravitational forces can cause the strange matter to be absorbed by the black hole, effectively adding its mass to the black hole's total mass.
Formation of an Exotic Core: Some theoretical models suggest that the extreme conditions inside a black hole, including high temperatures and pressures, could result in the formation of an exotic core made up of quark matter, potentially including strange matter. However, the exact nature and behavior of such a core are still highly uncertain.
Disruption: The intense tidal forces near the event horizon of a black hole can stretch and compress objects that fall into it. For ordinary matter, this process is known as spaghettification. If strange matter were to fall into a black hole, it might also experience similar tidal forces, causing it to be stretched and distorted.
It's important to note that these speculations are based on our current understanding of black holes and strange matter, which are areas of ongoing scientific research and exploration. The behavior of matter under extreme conditions, such as those inside a black hole, is not yet fully understood or described by a complete theory. Further advancements in theoretical physics and observations may shed more light on these fascinating phenomena in the future.