Area of Seal in contact with Sliding member given Leakage Solution

STEP 0: Pre-Calculation Summary
Formula Used
Area = Discharge through Orifice/Velocity
A = Qo/v
This formula uses 3 Variables
Variables Used
Area - (Measured in Square Meter) - The area is the amount of two-dimensional space taken up by an object.
Discharge through Orifice - (Measured in Cubic Meter per Second) - The Discharge through orifice is an opening, of any size or shape, in a pipe or at the bottom or side wall of a container (water tank, reservoir, etc.), through which fluid is discharged.
Velocity - (Measured in Meter per Second) - Velocity is a vector quantity (it has both magnitude and direction) and is the rate of change of the position of an object with respect to time.
STEP 1: Convert Input(s) to Base Unit
Discharge through Orifice: 0.025 Cubic Meter per Second --> 0.025 Cubic Meter per Second No Conversion Required
Velocity: 120 Meter per Second --> 120 Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
A = Qo/v --> 0.025/120
Evaluating ... ...
A = 0.000208333333333333
STEP 3: Convert Result to Output's Unit
0.000208333333333333 Square Meter --> No Conversion Required
FINAL ANSWER
0.000208333333333333 0.000208 Square Meter <-- Area
(Calculation completed in 00.004 seconds)

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national institute of technology hamirpur (NITH ), hamirpur , himachal pradesh
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15 Straight Cut Sealings Calculators

Modulus of Elasticity given Stress in Seal Ring
Go Modulus of Elasticity = (Stress in seal ring*Radial Ring Wall Thickness*(Outside Diameter of Seal Ring/Radial Ring Wall Thickness-1)^2)/(0.4815*Radial Clearance for Seals)
Radial Clearance given Stress in Seal Ring
Go Radial Clearance for Seals = (Stress in seal ring*Radial Ring Wall Thickness*(Outside Diameter of Seal Ring/Radial Ring Wall Thickness-1)^2)/(0.4815*Modulus of Elasticity)
Stress in Seal Ring
Go Stress in seal ring = (0.4815*Radial Clearance for Seals*Modulus of Elasticity)/(Radial Ring Wall Thickness*(Outside Diameter of Seal Ring/Radial Ring Wall Thickness-1)^2)
Outer Diameter of Seal Ring given Loss of Liquid Head
Go Outside Diameter of Seal Ring = sqrt((64*Absolute Viscosity of Oil in Seals*Velocity)/(2*[g]*Density Of Liquid*Loss of Liquid Head))
Radius given Leakage Velocity
Go Radius of Seal = sqrt((8*Incremental Length in Direction of Velocity*Absolute Viscosity of Oil in Seals*Velocity)/(Pressure Change))
Absolute Viscosity given Loss of Liquid Head
Go Absolute Viscosity of Oil in Seals = (2*[g]*Density Of Liquid*Loss of Liquid Head*Outside Diameter of Seal Ring^2)/(64*Velocity)
Density of Liquid given Loss of Liquid Head
Go Density Of Liquid = (64*Absolute Viscosity of Oil in Seals*Velocity)/(2*[g]*Loss of Liquid Head*Outside Diameter of Seal Ring^2)
Loss of Liquid Head
Go Loss of Liquid Head = (64*Absolute Viscosity of Oil in Seals*Velocity)/(2*[g]*Density Of Liquid*Outside Diameter of Seal Ring^2)
Incremental Length in Direction of Velocity given Leakage Velocity
Go Incremental Length in Direction of Velocity = ((Pressure Change)*Radius of Seal^2)/(8*Velocity*Absolute Viscosity of Oil in Seals)
Change in Pressure given Leakage Velocity
Go Pressure Change = (8*(Incremental Length in Direction of Velocity)*Absolute Viscosity of Oil in Seals*Velocity)/(Radius of Seal^2)
Absolute Viscosity given Leakage Velocity
Go Absolute Viscosity of Oil in Seals = ((Pressure Change)*Radius of Seal^2)/(8*Incremental Length in Direction of Velocity*Velocity)
Leakage Velocity
Go Velocity = ((Pressure Change)*Radius of Seal^2)/(8*Incremental Length in Direction of Velocity*Absolute Viscosity of Oil in Seals)
Area of Seal in contact with Sliding member given Leakage
Go Area = Discharge through Orifice/Velocity
Velocity given Leakage
Go Velocity = Discharge through Orifice/Area
Quantity of Leakage
Go Discharge through Orifice = Velocity*Area

Area of Seal in contact with Sliding member given Leakage Formula

Area = Discharge through Orifice/Velocity
A = Qo/v

What is Area in terms of leakage?

The Area in terms of leakage formula is defined as ratio of velocity to fluid discharge. In SI base units: 1 m²

How to Calculate Area of Seal in contact with Sliding member given Leakage?

Area of Seal in contact with Sliding member given Leakage calculator uses Area = Discharge through Orifice/Velocity to calculate the Area, The Area of Seal in contact with Sliding member given Leakage formula is defined as the ratio of velocity to fluid discharge. Area is denoted by A symbol.

How to calculate Area of Seal in contact with Sliding member given Leakage using this online calculator? To use this online calculator for Area of Seal in contact with Sliding member given Leakage, enter Discharge through Orifice (Qo) & Velocity (v) and hit the calculate button. Here is how the Area of Seal in contact with Sliding member given Leakage calculation can be explained with given input values -> 0.000208 = 0.025/120.

FAQ

What is Area of Seal in contact with Sliding member given Leakage?
The Area of Seal in contact with Sliding member given Leakage formula is defined as the ratio of velocity to fluid discharge and is represented as A = Qo/v or Area = Discharge through Orifice/Velocity. The Discharge through orifice is an opening, of any size or shape, in a pipe or at the bottom or side wall of a container (water tank, reservoir, etc.), through which fluid is discharged & Velocity is a vector quantity (it has both magnitude and direction) and is the rate of change of the position of an object with respect to time.
How to calculate Area of Seal in contact with Sliding member given Leakage?
The Area of Seal in contact with Sliding member given Leakage formula is defined as the ratio of velocity to fluid discharge is calculated using Area = Discharge through Orifice/Velocity. To calculate Area of Seal in contact with Sliding member given Leakage, you need Discharge through Orifice (Qo) & Velocity (v). With our tool, you need to enter the respective value for Discharge through Orifice & Velocity 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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