vacuum gauge suction lift - ορισμός. Τι είναι το vacuum gauge suction lift
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Τι (ποιος) είναι vacuum gauge suction lift - ορισμός

TERM USED IN FLUID DYNAMICS
Tdh; Suction head; Suction lift

Lift (force)         
  • Airflow separating from a wing at a high angle of attack
  • Control volumes of different shapes that have been used in analyzing the momentum balance in the 2D flow around a lifting airfoil. The airfoil is assumed to exert a downward force −L' per unit span on the air, and the proportions in which that force is manifested as momentum fluxes and pressure differences at the outer boundary are indicated for each different shape of control volume.
  • Lift is defined as the component of the [[aerodynamic force]] that is perpendicular to the flow direction, and drag is the component that is parallel to the flow direction.
  • An illustration of the incorrect equal transit-time explanation of airfoil lift.<ref name="nasa_equal_transit"/>
  • streamlines]].
  • Illustration of the distribution of higher-than-ambient pressure on the ground under an airplane in subsonic flight
  • isobars]] of equal pressure along their length. The arrows show the pressure differential from high (red) to low (blue) and hence also the net force which causes the air to accelerate in that direction.
  • Streamlines and streamtubes around an airfoil generating lift. Note the narrower streamtubes above and the wider streamtubes below.
FORCE; AERODYNAMICS TERM
Dynamic lift; Lift force; Lift Force; Useful lift; Lift equation; Aerodynamic lift; Lift (physics); Lift (fluid mechanics); Lift distribution; Equal transit-time fallacy; Equal transit time fallacy; Lifting force; Lift vector; Lift (airplane); Three-dimensional flow; Lift (aerodynamics)
A fluid flowing around an object exerts a force on it. Lift is the component of this force that is perpendicular to the oncoming flow direction.
Gauge (firearms)         
  • 2}} in) shotgun shell shown next to a United States quarter
  • Garden gun calibers: 9mm Flobert shot, 9mm Flobert shot, .22 Long Rifle shot, .22 Long Rifle, .22 Long Rifle shot, .22 CB Short, and 9mm Flobert BB cap
  • left-to-right: .410 bore, 28 gauge, 20 gauge, and 12 gauge shotgun shells
  • Portrait of [[Frederick Courteney Selous]] with his [[4 bore]] single-shot Boer rifle and African hunting regalia, 1876
BORE DIAMETER OF FIREARMS
12-gauge shotgun; 12 gauge shotguns; 12-gauge; Gauge (shotgun); 16 gauge; 28 gauge; 16-gauge; Ten-gauge shotgun; Shotgun gauge; 10 gauge; 10 bore; 16-gauge shotgun; 28-gauge shotgun; 10-gauge shotgun; 12 gauge shotgun; 12 bore; Gauge (bore diameter); Gauge (Shotgun); Twelve-gauge; 10-gauge; 28-gauge
The gauge (or commonly bore in British English) of a firearm is a unit of measurement used to express the inner diameter (bore diameter) of the barrel.
Gauge fixing         
PROCEDURE OF COPING WITH REDUNDANT DEGREES OF FREEDOM IN PHYSICAL FIELD THEORIES
Gauge freedom; Coulomb gauge; Weyl gauge; Maximum Abelian gauge; Temporal gauge; Radiation gauge; Gauge-fixed; Coulomb Gauge; Landau gauge; Ξ gauge; Feynman gauge; Gauge-fixing; Ks gauge; Poincaré gauge; Fock–Schwinger gauge; Dirac gauge; Fock-Schwinger gauge
In the physics of gauge theories, gauge fixing (also called choosing a gauge) denotes a mathematical procedure for coping with redundant degrees of freedom in field variables. By definition, a gauge theory represents each physically distinct configuration of the system as an equivalence class of detailed local field configurations.

Βικιπαίδεια

Total dynamic head

In fluid dynamics, total dynamic head (TDH) is the work to be done by a pump, per unit weight, per unit volume of fluid. TDH is expressed as the total equivalent height that a fluid is to be pumped, taking into account friction losses in the pipe.

T D H = Δ z + Δ ψ ρ g + Δ v 2 2 g + h F {\displaystyle {TDH=\Delta z+\Delta {\frac {\psi }{\rho g}}+\Delta {\frac {v^{2}}{2g}}}+h_{F}}
TDH = Static Lift + Pressure Head + Velocity Head + Friction Loss

where:

Static lift is the difference in elevation between the suction point and the discharge point.
Pressure head is the difference in pressure between the suction point and the discharge point, expressed as an equivalent height of fluid.
Velocity head represents the kinetic energy of the fluid due to its bulk motion.
Friction loss (or head loss) represents energy lost to friction as fluid flows through the pipe.

This equation can be derived from Bernoulli's Equation.

For incompressible liquids such as water, Static lift + Pressure head together equal the difference in fluid surface elevation between the suction basin and the discharge basin.