Sagar S Kulkarni
Dayananda Sagar College of Engineering (DSCE), Bengaluru
Sagar S Kulkarni has created this Calculator and 200+ more calculators!
Vaibhav Malani
National Institute of Technology (NIT), Tiruchirapalli
Vaibhav Malani has verified this Calculator and 100+ more calculators!

11 Other formulas that you can solve using the same Inputs

Angle of swash plate inclination given volumetric displacement
Swash plate inclination=atan(Theoretical volumetric displacement/(Number of pistons*Area of piston*Pitch circle diameter of the bore)) GO
Tan of angle of swash plate inclination given volumetric displacement
Tan of angle of inclination =Theoretical volumetric displacement/(Number of pistons*Area of piston*Pitch circle diameter of the bore) GO
Theoretical volumetric displacement given bore diameter and swash plate inclination
Theoretical volumetric displacement=Number of pistons*Area of piston*Pitch circle diameter of the bore*tan(Swash plate inclination) GO
Stroke length of piston pump given volumetric displacement
Stroke length of a piston pump=Theoretical volumetric displacement/(Number of pistons*Area of piston) GO
Theoretical volumetric displacement given area of piston and stroke length
Theoretical volumetric displacement=Number of pistons*Area of piston*Stroke length of a piston pump GO
Pressure during retraction
Pressure=Force/(Area of piston-Area of piston rod) GO
Force during retraction
Force=Pressure*(Area of piston-Area of piston rod) GO
Velocity of piston during extension
Velocity=Discharge/Area of piston GO
Discharge during extension
Discharge=Velocity*Area of piston GO
Force exerted onto the piston or by the piston
Force=Area of piston*Pressure GO
Pressure exerted
Pressure=Force/Area of piston GO

11 Other formulas that calculate the same Output

Velocity of the follower after time t (Cycloidal motion)
Velocity=((Angular velocity of the cam*Stroke of the follower)/Angular displacement of the cam during out stroke)*(1-(cos((2*pi*Angle through which the cam rotates)/(Angular displacement of the cam during out stroke)))) GO
Velocity of the follower for tangent cam with roller follower(contact with straight flanks)
Velocity=Angular velocity of the cam*(Radius of the base circle+Radius of the roller)*(sin(Angle turned by cam from beginning of roller)/((cos(Angle turned by cam from beginning of roller))^2)) GO
Velocity OF A Progressive Wave
Velocity=Wavelength Of A Wave/Time Period Of Progressive Wave GO
Velocity Of The Particle
Velocity=(Quantum Number*Plancks Constant)/(Mass*Radius*2*pi) GO
Velocity due to voltage
Velocity=sqrt((2*[Charge-e]*Velocity of electron)/[Mass-e]) GO
Velocity Of Wave in String
Velocity=sqrt(Tension Of String/Mass Per Unit length) GO
Velocity OF A Progressive Wave(Using Angular Frequency)
Velocity=(Wavelength*Angular Frequency)/(4*pi) GO
Velocity OF A Progressive Wave(Using Frequency)
Velocity=Wavelength Of A Wave*frequency GO
Velocity Of A Wave(Using Wave Number)
Velocity=Angular Frequency/Wave Number GO
Velocity Of Sound In Liquid
Velocity=sqrt(bulk modulus/Density) GO
Velocity Of Sound In Solids
Velocity=sqrt(Elasticity/Density) GO

Velocity of piston during retraction Formula

Velocity=Discharge/(Area of piston-Area of piston rod)
v=Q/(A<sub>p</sub>-A<sub>r</sub>)
More formulas
Force exerted onto the piston or by the piston GO
Pressure exerted GO
Area of piston given force and pressure GO
Force during retraction GO
Pressure during retraction GO
Velocity of piston during extension GO
Discharge during extension GO
Discharge during retraction GO
Power developed during extension GO

What are some applications of linear actuators?

Linear actuators are used in machine tools and industrial machinery, in computer peripherals such as disk drives and printers, and in valves and dampers.

How to Calculate Velocity of piston during retraction?

Velocity of piston during retraction calculator uses Velocity=Discharge/(Area of piston-Area of piston rod) to calculate the Velocity, The Velocity of piston during retraction formula is defined as the ratio of discharge to the difference between the area of piston and piston rod. Velocity and is denoted by v symbol.

How to calculate Velocity of piston during retraction using this online calculator? To use this online calculator for Velocity of piston during retraction, enter Discharge (Q), Area of piston (Ap) and Area of piston rod (Ar) and hit the calculate button. Here is how the Velocity of piston during retraction calculation can be explained with given input values -> -2.5 = 1/(0.1-0.5).

FAQ

What is Velocity of piston during retraction?
The Velocity of piston during retraction formula is defined as the ratio of discharge to the difference between the area of piston and piston rod and is represented as v=Q/(Ap-Ar) or Velocity=Discharge/(Area of piston-Area of piston rod). Discharge is the rate of flow of a liquid, Area of piston is the value of area of the piston in a piston pump and Area of piston rod is the value of the area of the rod connected to the piston.
How to calculate Velocity of piston during retraction?
The Velocity of piston during retraction formula is defined as the ratio of discharge to the difference between the area of piston and piston rod is calculated using Velocity=Discharge/(Area of piston-Area of piston rod). To calculate Velocity of piston during retraction, you need Discharge (Q), Area of piston (Ap) and Area of piston rod (Ar). With our tool, you need to enter the respective value for Discharge, Area of piston and Area of piston rod and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Velocity?
In this formula, Velocity uses Discharge, Area of piston and Area of piston rod. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Velocity=Wavelength Of A Wave/Time Period Of Progressive Wave
  • Velocity=Wavelength Of A Wave*frequency
  • Velocity=(Wavelength*Angular Frequency)/(4*pi)
  • Velocity=Angular Frequency/Wave Number
  • Velocity=sqrt(Tension Of String/Mass Per Unit length)
  • Velocity=sqrt(bulk modulus/Density)
  • Velocity=sqrt(Elasticity/Density)
  • Velocity=sqrt((2*[Charge-e]*Velocity of electron)/[Mass-e])
  • Velocity=(Quantum Number*Plancks Constant)/(Mass*Radius*2*pi)
  • Velocity=((Angular velocity of the cam*Stroke of the follower)/Angular displacement of the cam during out stroke)*(1-(cos((2*pi*Angle through which the cam rotates)/(Angular displacement of the cam during out stroke))))
  • Velocity=Angular velocity of the cam*(Radius of the base circle+Radius of the roller)*(sin(Angle turned by cam from beginning of roller)/((cos(Angle turned by cam from beginning of roller))^2))
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