How train react on Non-Newtonian Fluid ๐จ#nonnewtonianfluid #facts #trending#viral#latest #Facts4ever
The video explores what happens when a non-Newtonian fluid ball is placed on train tracks, demonstrating that despite these fluids becoming harder under pressure, the ball exploded easily when hit by the train.
Summary
The content examines the behavior of non-Newtonian fluids when confronted with extreme force, specifically using the scenario of a train hitting such a fluid formed into a ball shape. The speaker begins by posing a question about whether the non-Newtonian fluid ball or train passengers would experience the first impact. They explain that non-Newtonian fluids violate Newton's laws of viscosity, becoming harder when more pressure is applied - demonstrated by how particles join together under pressure to behave like solids, while gentle contact allows easy penetration. However, when actually tested with a train, the non-Newtonian fluid ball exploded easily upon impact, revealing that despite its pressure-responsive hardening properties, it was not sufficiently hard to withstand the extreme force of a moving train.
Key Insights
- The speaker demonstrates that non-Newtonian fluids violate Newton's laws of viscosity by becoming harder under increased pressure
- The experiment revealed that despite non-Newtonian fluids' ability to harden under pressure, the ball exploded easily when struck by a train
- The speaker argues that the hardening effect of non-Newtonian fluids has limits, as the 'hard' ball wasn't actually hard enough to resist extreme force
Topics
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