Step-by-step explanation:
Oobleck is a non-Newtonian fluid, which means it doesn't behave like typical liquids such as water or oil. Instead, it behaves like a mixture of a liquid and a solid, depending on how much force is applied. When oobleck is left alone, it behaves like a liquid and flows like a viscous fluid. However, when force is applied to it, such as squeezing or hitting it, it becomes solid and resists the force.
One way to see this behavior is by conducting the famous "oobleck dance" experiment. If oobleck is placed on a speaker and vibrated with sound waves, it will start to behave like a solid and form interesting patterns. The vibration causes the cornstarch particles to move closer together, forming a more solid structure. When the vibrations stop, the oobleck returns to its liquid state.
Another experiment involves making oobleck and slowly stirring it. As the oobleck is stirred, it becomes more liquid-like and easier to stir. However, if the stirring is done too quickly, the oobleck becomes more solid and resists the motion. This is due to the cornstarch particles clumping together and creating a more solid structure.
Overall, the behavior of oobleck can be explained by the properties of the cornstarch particles and how they interact with each other. Its unique properties make it a popular material for science experiments and demonstrations.