Lecture
This lecture provides an overview of fluid dynamics, focusing on the concept of viscosity and its significance in fluid behavior. The instructor begins with a recap of the previous discussion on fluids, defining a fluid as a substance that continuously deforms under shear stress. The lecture emphasizes the relationship between shear stress and shear strain rate, particularly for Newtonian fluids, where shear stress is proportional to shear strain rate. The instructor introduces the no-slip condition, explaining how it relates to viscosity and the behavior of fluids at solid boundaries. Through various examples and visual demonstrations, the instructor illustrates how viscosity affects fluid flow and the differences between Newtonian and non-Newtonian fluids. The lecture concludes with a discussion on the units of viscosity and the importance of understanding viscosity in practical applications, such as lubrication and fluid transport. Overall, this lecture serves as a foundational exploration of fluid dynamics, setting the stage for more complex topics in the field.