Can Water Destroy Jupiter If It’s Dense Enough?

What would happen if a sphere of water the size of Earth collided with Jupiter — but its density kept changing dramatically? 💧🌍➡️🪐 In this Universe Sandbox experiment, we explore how density alone can completely change the outcome of a planetary collision. We use the same-sized water sphere (Earth radius), but test 5 different density levels: 💧 100,000× less dense than water 💧 Normal water density 💧 100× denser water 💧 10,000× denser water 💧 1 billion× denser water Even though the size stays identical, the mass and impact energy change drastically with each stage. In this simulation, you’ll see: How low-density water behaves like a cloud When water starts acting like a solid impactor The moment density turns water into a planet-killer Shockwaves traveling through Jupiter’s atmosphere Whether Jupiter absorbs, reshapes, or gets damaged by each impact This experiment proves a powerful idea: Density can matter more than size in space collisions. What if water with different densities collides with Jupiter, Universe Sandbox, water collision, Jupiter experiment, density physics, space simulation, astrophysics experiment, gas giant destruction Same Size Water… Different Density — Jupiter Gets Destroyed Can Water Destroy Jupiter If It’s Dense Enough? Can water with different densities bring life to Jupiter? Timecodes: 00:00 - 100,000 times lighter 01:11 - Real Water 02:18 - 100 times heavier 04:07 - 10000 times heavier 06:02 - 1 Billion times heavier