![]() ![]() Shear stress is the force that is applied to a fluid when it is forced to move in a certain direction. The higher the viscosity, the more resistant the fluid is to flow. Viscosity is the measure of a fluid’s resistance to flow. To better understand how oobleck works, it is important to examine two concepts: viscosity and shear stress. A Closer Look at Oobleck: Investigating the Physics Behind the Classic Slime Finally, the viscosity of non-Newtonian fluids can be changed by varying the amount of pressure applied, making them ideal for use in medical and industrial applications. They also have a higher surface tension, which means they can form a thin film on the surface of an object. They are typically more viscous than other liquids, meaning they take longer to flow. Non-Newtonian fluids exhibit several unique properties. This means that when a force is applied to oobleck, it can become harder or softer depending on the amount of pressure applied. Instead, it responds to changes in pressure or stress by becoming thicker or thinner. So how does oobleck differ from other fluids? Unlike water, which behaves according to Newton’s laws of motion, oobleck does not follow these laws. Oobleck is an example of a non-Newtonian fluid – it can behave like a solid or a liquid, depending on the amount of force applied. It is characterized by its ability to change viscosity depending on the amount of pressure applied. Examining the Properties of Oobleck: Exploring the Science Behind the Non-Newtonian FluidĪ non-Newtonian fluid is a type of liquid that does not obey the traditional laws of physics. But what is the science behind this mysterious gooey substance? In this article, we will explore the physics and chemistry of oobleck, examining the properties of this non-Newtonian fluid and the forces that act upon it. Oobleck is a classic slime that has captivated children’s imaginations for decades. Chemistry, Fluid, Non-Newtonian, Oobleck, Physics, Pressure, Shear Stress, Viscosity Introduction ![]()
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