Physics, Chapter 9: Hydrodynamics (Fluids in Motion)
... lower than the pressure at the bottom surface, creating an upward force on the airfoil. It is for this reason that the greatest lift is often associated with an airfoil of rather marked asymmetry. A perfectly symmetrical wing had no lift unless it is turned at an angle ""ith respect to the flow of f ...
... lower than the pressure at the bottom surface, creating an upward force on the airfoil. It is for this reason that the greatest lift is often associated with an airfoil of rather marked asymmetry. A perfectly symmetrical wing had no lift unless it is turned at an angle ""ith respect to the flow of f ...
Pore-scale study of the fracture influence on fluid
... heterogeneous carbonate rocks. Constructing digital cores and using pore network flow models can be used to simulate the petrophysical properties of complicated carbonate medium and it is vital to understand the multiphase flow mechanism at pore-scale level in carbonate media.Up to now, the traditio ...
... heterogeneous carbonate rocks. Constructing digital cores and using pore network flow models can be used to simulate the petrophysical properties of complicated carbonate medium and it is vital to understand the multiphase flow mechanism at pore-scale level in carbonate media.Up to now, the traditio ...
The lift of a wing is proportional to the amount of air diverted down
... The image to the right shows the streamlines over a NACA 0012 airfoil computed using potential flow theory, a simplified model of the real flow. The flow approaching an airfoil can be divided into two streamtubes, which are defined based on the area between streamlines. By definition, fluid never cr ...
... The image to the right shows the streamlines over a NACA 0012 airfoil computed using potential flow theory, a simplified model of the real flow. The flow approaching an airfoil can be divided into two streamtubes, which are defined based on the area between streamlines. By definition, fluid never cr ...
Fluids
... arteries will find that they may experience a temporary lack of blood to the brain (TIA) as blood speeds up to get past the ...
... arteries will find that they may experience a temporary lack of blood to the brain (TIA) as blood speeds up to get past the ...
Pressure
... transmitted throughout that fluid unchanged in all directions. • Pressure increases in a fluid with depth • P = g h, where = density of fluid, g= acc. due to gravity, and h = height of the fluid column • The shape of the container has no effect on pressure. Only Depth! ...
... transmitted throughout that fluid unchanged in all directions. • Pressure increases in a fluid with depth • P = g h, where = density of fluid, g= acc. due to gravity, and h = height of the fluid column • The shape of the container has no effect on pressure. Only Depth! ...
Hopkins Imaging Conference Poster Contest
... assessment of coronary stenosis and plaque burden. Recent studies have shown the presence of axial contrast concentration gradients in obstructed arteries, but the mechanism responsible for this phenomenon is not well understood. We use computational fluid dynamics to study intracoronary contrast di ...
... assessment of coronary stenosis and plaque burden. Recent studies have shown the presence of axial contrast concentration gradients in obstructed arteries, but the mechanism responsible for this phenomenon is not well understood. We use computational fluid dynamics to study intracoronary contrast di ...