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What is a Fluid? - Lecture 1.1 - Chemical Engineering Fluid Mechanics

Characteristics of a Fluid

Capillary Action

Dimensional Homogeneity

Dimensionless Groups (Reynolds Number Example)

Force & Weight (Units & Conversions)

Ideal Gas Law - Lung Example (BIO)

Ideal Gas Mixture Characterization

Introduction to Viscosity - Lecture 1.2 - Chemical Engineering Fluid Mechanics

Molar Conversions

Non-Newtonian Fluids, part 1 - Lecture 1.5 - Chemical Engineering Fluid Mechanics

Non-Newtonian Fluids, part 2 - Lecture 1.6 - Chemical Engineering Fluid Mechanics

Non-Newtonian Fluids, part 3 - Lecture 1.7 - Chemical Engineering Fluid Mechanics

Non-Newtonian Fluids, part 4 - Lecture 1.8 - Chemical Engineering Fluid Mechanics

Rigid Body Rotation

Shear Stress on Incline

Specific Gravity of a Mixture

Specific Weight of Mixture

Surface Tension, part 1 - Lecture 1.3 - Chemical Engineering Fluid Mechanics

Surface Tension, part 2 - Lecture 1.4 - Chemical Engineering Fluid Mechanics

Systems of Units

Types of Homogeneous Equations

Viscosity of Fluid From Shear Force

Introduction to Buoyancy

What is Buoyancy?

Buoyancy Example

Buoyancy of a Box

Buoyant Forces: Submarine Example

Derive Equation for a Fluid at Rest

Derive Equation for a Pressure Field

Introduction to Hydrostatic Pressure

Hydrostatic Pressure Calculations

Fluid Pressure vs. Elevation (Incompressible vs. Compressible Cases)

Pressure Variation for Compressible Fluid at Rest

Force Balance on Rotating Gate

Force on Submerged Door

Submerged Gate: Moment at Hinge

Absolute and Gauge Pressure of Air and Water with Manometer

Manometer Example

Force Balance on an Inclined Manometer

Estimate Specific Gravity of Oil in a Manometer

Rigid Body Motion

Hydrostatic Force on a Submerged Gate

Hydrostatic Force on a Partially-Submerged Gate (Part 1)

Hydrostatic Force on a Partially-Submerged Gate (Part 2)

Pressure Variation in a Partially-filled Tank

Forces on a Partially-Submerged Gate (Interactive Simulation)

Forces on a Completely-Submerged Gate (Interactive Simulation)

Buoyancy of a Floating Cube (Interactive Simulation)

Manometers (Interactive Simulation)

Description:

Dive into a comprehensive 6-hour exploration of fluid characteristics and fluid statics in chemical engineering. Learn about fluid properties, viscosity, non-Newtonian fluids, surface tension, and buoyancy through lectures and interactive simulations. Explore key concepts like the ideal gas law, dimensional analysis, and hydrostatic pressure. Master practical applications including manometer calculations, force balances on submerged objects, and pressure variations in tanks. Gain a solid foundation in fluid mechanics principles essential for chemical engineers, with real-world examples and bioengineering connections.

Fluid Characteristics - Fluid Statics

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#Science #Physics #Fluid Mechanics #Engineering #Chemical Engineering #Viscosity #Surface Tension #Ideal Gas Law #Buoyancy

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