The concept of infinite quantities being released at the same time is difficult to comprehend within the framework of our current understanding of physics. Infinity is not a real, tangible quantity, but rather a mathematical concept that represents an endless or unbounded value. In physics, we use mathematical models and principles to describe and predict the behavior of the universe, but they typically do not involve infinite quantities in this sense.
That being said, if we were to consider a hypothetical scenario where an infinite amount of something was released simultaneously, it would depend on the nature and properties of that "something" and its interactions with the universe. The outcome could vary significantly depending on the specific circumstances.
In some cases, the release of an infinite quantity of a certain substance or energy could have dramatic effects on the surrounding environment. It might lead to rapid expansion, intense gravitational forces, or even the formation of a black hole if a sufficient amount of mass were involved. However, it is important to note that these scenarios would still be subject to the laws of physics and the conservation of energy, momentum, and other fundamental principles.
It is highly unlikely that such a scenario could cause the entire universe to vanish. Our current understanding of the universe suggests that it is vast and complex, with numerous galaxies, stars, and other celestial objects spread across unimaginable distances. The release of an infinite quantity of something in a localized area would likely have localized effects rather than affecting the entire universe.
It's worth noting that this discussion enters the realm of speculative physics, as we don't have a complete understanding of all the physical laws and processes governing the universe. Our knowledge is continually evolving through scientific research and exploration.