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Velocity of Jet in Hydraulics and Waterworks Formulas

Velocity of Jet can be described as the movement of the plate in meters per second. And is denoted by v. Velocity of Jet is usually measured using the Meter per Second for Speed. Note that the value of Velocity of Jet is always negative.

Formulas to find Velocity of Jet in Hydraulics and Waterworks

fxVelocity given Angular Momentum at Outlet​Go
fxVelocity at Point given Efficiency of System​Go
fxVelocity at Outlet given Torque by Fluid​Go
fxVelocity at Outlet given Work Done on Wheel​Go
fxVelocity at Outlet given Power Delivered to Wheel​Go
fxVelocity at Outlet given Work Done if Jet leaves in Motion of Wheel​Go
fxVelocity of jet for mass of fluid striking plate​Go
fxVelocity of jet given dynamic thrust exerted by jet on plate​Go
fxVelocity of jet for dynamic thrust exerted by jet on plate​Go
fxVelocity of Jet given Normal Thrust Parallel to Direction of Jet​Go
fxVelocity of Jet given Normal Thrust Normal to Direction of Jet​Go
fxVelocity of Vane for given Mass of Fluid​Go
fxVelocity of Vane given Exerted Force by Jet​Go
fxVelocity at Inlet for Mass of Fluid Striking Vane per Second​Go

Hydraulics and Waterworks formulas that make use of Velocity of Jet

fxAngular Momentum at Outlet​Go
fxTorque Exerted by Fluid​Go
fxRadius at Inlet with Known Torque by Fluid​Go
fxRadius at Outlet for Torque Exerted by Fluid​Go
fxAngular Velocity for Work Done on Wheel per Second​Go
fxRadius at Inlet for Work Done on Wheel per Second​Go
fxRadius at Outlet for Work Done on Wheel per Second​Go
fxPower Delivered to Wheel​Go
fxInitial Velocity given Power Delivered to Wheel​Go
fxInitial Velocity for Work Done if Jet leaves in Motion of Wheel​Go
fxVelocity for Work Done if there is no Loss of Energy​Go
fxEfficiency of System​Go
fxVelocity given Efficiency of System​Go
fxWeight of Fluid given Angular Momentum at Outlet​Go
fxWeight of Fluid for Work Done on Wheel per Second​Go
fxWeight of Fluid given Power Delivered to Wheel​Go
fxWeight of Fluid given Work Done if Jet leaves in Motion of Wheel​Go
fxWeight of Fluid for Work Done if there is no loss of Energy​Go
fxVelocity at Inlet given Torque by Fluid​Go
fxVelocity at Inlet given Work Done on Wheel​Go
fxTangential Momentum of Fluid Striking Vanes at Outlet​Go
fxWork Done on Wheel per Second​Go
fxWork Done if Jet leaves in Direction as that of Motion of Wheel​Go
fxWork Done if there is no Loss of Energy​Go
fxRadius of Wheel for Tangential Velocity at Inlet Tip of Vane​Go
fxDynamic Thrust Exerted on Plate by Jet​Go
fxAbsolute Velocity given Thrust Exerted by Jet on Plate​Go
fxWork Done by Jet on Plate per Second​Go
fxEfficiency of Wheel​Go
fxCross Sectional Area given Mass of Fluid Striking Plate​Go
fxCross Sectional Area given Dynamic Thrust Exerted by Jet on Plate​Go
fxCross Sectional Area given Work Done by Jet on Plate per Second​Go
fxDynamic Thrust Exerted by Jet on Plate​Go
fxNormal Thrust Parallel to Direction of Jet​Go
fxNormal Thrust Normal to Direction of Jet​Go
fxCross Section Area for Mass of Fluid Striking Plate​Go
fxCross Sectional Area for given Normal Thrust Normal to Direction of Jet​Go
fxAbsolute Velocity for Mass of Fluid Striking Plate​Go
fxAbsolute velocity for dynamic thrust exerted by jet on plate​Go
fxAbsolute Velocity for given Normal Thrust Parallel to Direction of Jet​Go
fxAbsolute Velocity for given Normal Thrust Normal to Direction of Jet​Go
fxMass of Fluid Striking Vane per Seconds​Go
fxAbsolute Velocity for Mass of Fluid Striking Vane per Second​Go
fxAbsolute Velocity for Force Exerted by Jet in Direction of Flow of Incoming Jet​Go
fxWork Done by Jet on Vane per Second​Go
fxEfficiency of Jet​Go
fxForce Exerted by Jet in Direction of Flow of Incoming Jet with angle at 90​Go
fxForce Exerted by Jet in Direction of Flow of Incoming Jet with angle zero​Go
fxForce Exerted by Jet in direction of Flow of Jet​Go
fxForce Exerted by jet with relative velocity​Go
fxArea of Cross Section for Mass of Fluid Striking moving Vane per Second​Go
fxArea of Cross Section for work done by Jet on vane per second​Go
fxArea of Cross Section for Force Exerted by Jet in Direction of Flow​Go
fxArea of Cross Section for Force Exerted by Jet with relative velocity​Go
fxMass of Fluid Striking Vanes per Second​Go
fxArea of Cross Section for Mass of Fluid Striking Vane per Second​Go

List of variables in Hydraulics and Waterworks formulas

fx Tangential Momentum ​Go
fx Specific Gravity of Fluid ​Go
fx Weight of Fluid ​Go
fx Radius of wheel ​Go
fx Efficiency of Jet ​Go
fx Final Velocity ​Go
fx Torque Exerted on Wheel ​Go
fx Radius of Outlet ​Go
fx Work Done ​Go
fx Angular Velocity ​Go
fx Power Delivered ​Go
fx Initial Velocity ​Go
fx Fluid Mass ​Go
fx Specific Weight of Liquid ​Go
fx Cross Sectional Area of Jet ​Go
fx Absolute Velocity of Issuing Jet ​Go
fx Angle between Jet and Plate ​Go
fx Thrust Force ​Go
fx Theta ​Go
fx Force exerted by Jet ​Go

FAQ

What is the Velocity of Jet?
Velocity of Jet can be described as the movement of the plate in meters per second. Velocity of Jet is usually measured using the Meter per Second for Speed. Note that the value of Velocity of Jet is always negative.
Can the Velocity of Jet be negative?
Yes, the Velocity of Jet, measured in Speed can be negative.
What unit is used to measure Velocity of Jet?
Velocity of Jet is usually measured using the Meter per Second[m/s] for Speed. Meter per Minute[m/s], Meter per Hour[m/s], Kilometer per Hour[m/s] are the few other units in which Velocity of Jet can be measured.
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