Fluid Mechanics
CHAPTER 1: FLUID PROPERTIES
LEARNING OUTCOMES
At the end of this topic, you should be able to: Define Fluid State differences between solid and fluid Calculate common fluid properties: i. Mass density ii. Specific weight iii. Relative density iv. Dynamic viscosity v. Kinematic viscosity
INTRODUCTION
Fluid Mechanics
Gas Liquids Statics i F 0 F 0 i Laminar/ Turbulent
Dynamics
, Flows
Compressible/ Incompressible
Air, He, Ar, N2, etc.
Water, Oils, Alcohols, etc.
Stability Pressure Buoyancy
Surface Tension Compressibility Density Viscosity Vapor Pressure
Steady/Unsteady Viscous/Inviscid
Fluid Dynamics: Chapter 1: Chapter 2: Fluid Introduction Statics Rest of Course Fluid mechanics 1. study of forces and motions in fluids 3 2. study of how fluids move and the forces on them
Applications of fluid mechanics
Aerodynamics Bioengineering and biological systems Combustion Energy generation Geology Hydraulics and Hydrology Hydrodynamics Meteorology Ocean and Coastal Engineering Water Resources
History
Archimedes (287-212 B.C.) - calculation of the hydrostatic buoyancy.
Leonardo da Vinci (1500)-calculation of the mass conservation, reduction of flow resistance by form shaping, motion of waves, the hydraulic jump and the flow turbulence, behavior of free jets and wake flows
Evangelista Torricelli (1608-1647) formulates a mathematical relation for the friction-free calculation of the efflux of a liquid out from a vessel. Edme Mariotte (1628-1684) realizes a first test channel for measuring the resistance of bodies in flows. Isaac Newton (1643-1727) Flow mechanical processes. Postulates the fluid resistance to be proportional to the velocity difference. As a measure for the resistance of “normal” fluids (water, air) he introduces the viscosity and flow behavior of a rotating cylinder. Daniel Bernoulli (1700-1782) Pressure change and the acceleration of a fluid, introduces the
LEARNING OUTCOMES
At the end of this topic, you should be able to: Define Fluid State differences between solid and fluid Calculate common fluid properties: i. Mass density ii. Specific weight iii. Relative density iv. Dynamic viscosity v. Kinematic viscosity
INTRODUCTION
Fluid Mechanics
Gas Liquids Statics i F 0 F 0 i Laminar/ Turbulent
Dynamics
, Flows
Compressible/ Incompressible
Air, He, Ar, N2, etc.
Water, Oils, Alcohols, etc.
Stability Pressure Buoyancy
Surface Tension Compressibility Density Viscosity Vapor Pressure
Steady/Unsteady Viscous/Inviscid
Fluid Dynamics: Chapter 1: Chapter 2: Fluid Introduction Statics Rest of Course Fluid mechanics 1. study of forces and motions in fluids 3 2. study of how fluids move and the forces on them
Applications of fluid mechanics
Aerodynamics Bioengineering and biological systems Combustion Energy generation Geology Hydraulics and Hydrology Hydrodynamics Meteorology Ocean and Coastal Engineering Water Resources
History
Archimedes (287-212 B.C.) - calculation of the hydrostatic buoyancy.
Leonardo da Vinci (1500)-calculation of the mass conservation, reduction of flow resistance by form shaping, motion of waves, the hydraulic jump and the flow turbulence, behavior of free jets and wake flows
Evangelista Torricelli (1608-1647) formulates a mathematical relation for the friction-free calculation of the efflux of a liquid out from a vessel. Edme Mariotte (1628-1684) realizes a first test channel for measuring the resistance of bodies in flows. Isaac Newton (1643-1727) Flow mechanical processes. Postulates the fluid resistance to be proportional to the velocity difference. As a measure for the resistance of “normal” fluids (water, air) he introduces the viscosity and flow behavior of a rotating cylinder. Daniel Bernoulli (1700-1782) Pressure change and the acceleration of a fluid, introduces the