Area of plunger Solution

STEP 0: Pre-Calculation Summary
Formula Used
Area of plunger = Force Acting on Plunger/Pressure Intensity
a = F'/pi
This formula uses 3 Variables
Variables Used
Area of plunger - (Measured in Square Meter) - Area of plunger is defined as the area where the force acts equally in all sides so that the weight is lifted by the plunger.
Force Acting on Plunger - (Measured in Newton) - Force acting on plunger is defined as the push or pull upon the plunger resulting from the object's interaction with another object.
Pressure Intensity - (Measured in Pascal) - The Pressure intensity at a point is defined as the external normal force per unit area. The SI unit of pressure is Pascal.
STEP 1: Convert Input(s) to Base Unit
Force Acting on Plunger: 500 Newton --> 500 Newton No Conversion Required
Pressure Intensity: 10.1 Pascal --> 10.1 Pascal No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
a = F'/pi --> 500/10.1
Evaluating ... ...
a = 49.5049504950495
STEP 3: Convert Result to Output's Unit
49.5049504950495 Square Meter --> No Conversion Required
FINAL ANSWER
49.5049504950495 49.50495 Square Meter <-- Area of plunger
(Calculation completed in 00.004 seconds)

Credits

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23 Incompressible Flow Characteristics Calculators

Uniform flow velocity for stream function at point in combined flow
Go Uniform Flow Velocity = (Stream Function-(Strength of Source/(2*pi*Angle A)))/(Distance from End A*sin(Angle A))
Stream Function at Point in Combined Flow
Go Stream Function = (Uniform Flow Velocity*Distance from End A*sin(Angle A))+((Strength of Source/(2*pi))*Angle A)
Location of stagnation point on x-axis
Go Distance of Stagnation Point = Distance from End A*sqrt((1+(Strength of Source/(pi*Distance from End A*Uniform Flow Velocity))))
Temperature Lapse Rate given Gas Constant
Go Temperature Lapse Rate = (-Acceleration Due to Gravity/Universal Gas Constant)*((Specific constant-1)/(Specific constant))
Stream function at point
Go Stream Function = -(Strength of Doublet/(2*pi))*(Length y/((Length X^2)+(Length y^2)))
Strength of doublet for stream function
Go Strength of Doublet = -(Stream Function*2*pi*((Length X^2)+(Length y^2)))/Length y
Uniform flow velocity for Rankine half body
Go Uniform Flow Velocity = (Strength of Source/(2*Length y))*(1-(Angle A/pi))
Dimensions of Rankine half-body
Go Length y = (Strength of Source/(2*Uniform Flow Velocity))*(1-(Angle A/pi))
Strength of source for Rankine half body
Go Strength of Source = (Length y*2*Uniform Flow Velocity)/(1-(Angle A/pi))
Pressure Head given Density
Go Pressure Head = Pressure above Atmospheric Pressure/(Density of Fluid*Acceleration Due to Gravity)
Radius of Rankine circle
Go Radius = sqrt(Strength of Doublet/(2*pi*Uniform Flow Velocity))
Pressure at point in piezometer given Mass and Volume
Go Pressure = (Mass of water*Acceleration Due to Gravity*Height of Water above Bottom of Wall)
Height of liquid in piezometer
Go Height of Liquid = Water Pressure/(Water Density*Acceleration Due to Gravity)
Distance of stagnation point S from source in flow past half body
Go Radial Distance = Strength of Source/(2*pi*Uniform Flow Velocity)
Pressure at any point in liquid
Go Pressure = Density*Acceleration Due to Gravity*Pressure Head
Stream function in sink flow for angle
Go Stream Function = (Strength of Source/(2*pi))*(Angle A)
Radius at any point considering radial velocity
Go Radius 1 = Strength of Source/(2*pi*Radial Velocity)
Radial velocity at any radius
Go Radial Velocity = Strength of Source/(2*pi*Radius 1)
Strength of source for radial velocity and at any radius
Go Strength of Source = Radial Velocity*2*pi*Radius 1
Hydrostatic law
Go Weight density = Density of Fluid*Acceleration Due to Gravity
Force on Plunger given Intensity
Go Force Acting on Plunger = Pressure Intensity*Area of plunger
Area of plunger
Go Area of plunger = Force Acting on Plunger/Pressure Intensity
Absolute Pressure given Gauge Pressure
Go Absolute Pressure = Gauge Pressure+Atmospheric Pressure

Area of plunger Formula

Area of plunger = Force Acting on Plunger/Pressure Intensity
a = F'/pi

What is the function of the plunger?

The plunger displaces the available volume through its own volume and increases the pressure of the fluid to be pumped. The suction valve closes and the pressure valve opens the way into the process area for the pressurized fluid.

What is the function of the press plunger in a hydraulic press?

The hydraulic press works by pressing a small amount of force onto the Plunger which presses the fluid below. This pressure is then distributed evenly which in turn raises the Ram. The pressure between the Plunger and the Ram then works to crush the item placed between them.

How to Calculate Area of plunger?

Area of plunger calculator uses Area of plunger = Force Acting on Plunger/Pressure Intensity to calculate the Area of plunger, The Area of plunger formula is defined as the ratio of force acting on hydraulic plunger and pressure intensity. Area of plunger is denoted by a symbol.

How to calculate Area of plunger using this online calculator? To use this online calculator for Area of plunger, enter Force Acting on Plunger (F') & Pressure Intensity (pi) and hit the calculate button. Here is how the Area of plunger calculation can be explained with given input values -> 50 = 500/10.1.

FAQ

What is Area of plunger?
The Area of plunger formula is defined as the ratio of force acting on hydraulic plunger and pressure intensity and is represented as a = F'/pi or Area of plunger = Force Acting on Plunger/Pressure Intensity. Force acting on plunger is defined as the push or pull upon the plunger resulting from the object's interaction with another object & The Pressure intensity at a point is defined as the external normal force per unit area. The SI unit of pressure is Pascal.
How to calculate Area of plunger?
The Area of plunger formula is defined as the ratio of force acting on hydraulic plunger and pressure intensity is calculated using Area of plunger = Force Acting on Plunger/Pressure Intensity. To calculate Area of plunger, you need Force Acting on Plunger (F') & Pressure Intensity (pi). With our tool, you need to enter the respective value for Force Acting on Plunger & Pressure Intensity and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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