Unit weight of fluid Calculator

✖Density of Fluid is defined as the mass of fluid per unit volume of the said fluid.ⓘ Density of Fluid [ρ_fluid]			+10% -10%
✖Acceleration due to Gravity is acceleration gained by an object because of gravitational force.ⓘ Acceleration due to Gravity [g]			+10% -10%

✖Unit Weight of Fluid is the weight per unit volume of a material/fluid.ⓘ Unit weight of fluid [γ]

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Formula

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Unit weight of fluid

Formula

`"γ" = "ρ"_{"fluid"}*"g"`

Example

`"9.7706kN/m³"="997kg/m³"*"9.8m/s²"`

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Unit weight of fluid Solution

STEP 0: Pre-Calculation Summary

Formula Used

Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity
γ = ρ_fluid*g
This formula uses 3 Variables

Variables Used

Unit Weight of Fluid - (Measured in Newton per Cubic Meter) - Unit Weight of Fluid is the weight per unit volume of a material/fluid.
Density of Fluid - (Measured in Kilogram per Cubic Meter) - Density of Fluid is defined as the mass of fluid per unit volume of the said fluid.
Acceleration due to Gravity - (Measured in Meter per Square Second) - Acceleration due to Gravity is acceleration gained by an object because of gravitational force.

STEP 1: Convert Input(s) to Base Unit

Density of Fluid: 997 Kilogram per Cubic Meter --> 997 Kilogram per Cubic Meter No Conversion Required
Acceleration due to Gravity: 9.8 Meter per Square Second --> 9.8 Meter per Square Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

γ = ρ_fluid*g --> 997*9.8

Evaluating ... ...

γ = 9770.6

STEP 3: Convert Result to Output's Unit

9770.6 Newton per Cubic Meter -->9.7706 Kilonewton per Cubic Meter (Check conversion here)

FINAL ANSWER

9.7706 Kilonewton per Cubic Meter <-- Unit Weight of Fluid

(Calculation completed in 00.004 seconds)

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< 21 Coefficient of Permeability Calculators

Hagen Poiseuille flow or mean particle size of porous medium laminar flow through conduit

Go Mean Particle Size of the Porous Medium = sqrt((Coefficient of Permeability (Hagen-Poiseuille)*Dynamic Viscosity of the Fluid)/(Shape Factor*(Unit Weight of Fluid/1000)))

Dynamic viscosity of fluid of laminar flow through conduit or Hagen Poiseuille flow

Go Dynamic Viscosity of the Fluid = (Shape Factor*Mean Particle Size of the Porous Medium^2)*((Unit Weight of Fluid/1000)/Coefficient of Permeability (Hagen-Poiseuille))

Coefficient of permeability from analogy of laminar flow (Hagen Poiseuille flow)

Go Coefficient of Permeability (Hagen-Poiseuille) = Shape Factor*(Mean Particle Size of the Porous Medium^2)*(Unit Weight of Fluid/1000)/Dynamic Viscosity of the Fluid

Coefficient of permeability at any temperature t for standard value of coefficient of permeability

Go Coefficient of Permeability at any Temperature t = (Standard Coefficient of Permeability at 20°C*Kinematic Viscosity at 20° C)/Kinematic Viscosity at t° C

Kinematic Viscosity at 20 degree Celsius for standard value of coefficient of permeability

Go Kinematic Viscosity at 20° C = (Coefficient of Permeability at any Temperature t*Kinematic Viscosity at t° C)/Standard Coefficient of Permeability at 20°C

Kinematic Viscosity for standard value of coefficient of permeability

Go Kinematic Viscosity at t° C = (Standard Coefficient of Permeability at 20°C*Kinematic Viscosity at 20° C)/Coefficient of Permeability at any Temperature t

Standard value of coefficient of permeability

Go Standard Coefficient of Permeability at 20°C = Coefficient of Permeability at any Temperature t*(Kinematic Viscosity at t° C/Kinematic Viscosity at 20° C)

Coefficient of permeability at temperature of permeameter experiment

Go Coefficient of Permeability at the temperature = (Discharge/Cross-Sectional Area)*(1/(Constant Head Difference/Length))

Cross sectional area when coefficient of permeability at permeameter experiment is considered

Go Cross-Sectional Area = Discharge/(Coefficient of Permeability at the temperature*(Constant Head Difference/Length))

Discharge when Coefficient of Permeability at Permeameter Experiment is Considered

Go Discharge = Coefficient of Permeability at the temperature*Cross-Sectional Area*(Constant Head Difference/Length)

Length when Coefficient of Permeability at Permeameter Experiment is Considered

Go Length = (Constant Head Difference*Cross-Sectional Area*Coefficient of Permeability at the temperature)/Discharge

Coefficient of Permeability when Specific or Intrinsic Permeability is Considered

Go Coefficient of Permeability at the temperature = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Dynamic Viscosity of the Fluid)

Specific or Intrinsic Permeability when Coefficient of Permeability is Considered

Go Intrinsic Permeability = (Coefficient of Permeability at the temperature*Dynamic Viscosity of the Fluid)/(Unit Weight of Fluid/1000)

Specific or Intrinsic Permeability when Dynamic Viscosity is Considered

Go Intrinsic Permeability = (Coefficient of Permeability at the temperature*Dynamic Viscosity of the Fluid)/(Unit Weight of Fluid/1000)

Dynamic Viscosity when Specific or Intrinsic Permeability is Considered

Go Dynamic Viscosity of the Fluid = Intrinsic Permeability*((Unit Weight of Fluid/1000)/Coefficient of Permeability at the temperature)

Kinematic Viscosity when Specific or Intrinsic Permeability is Considered

Go Kinematic Viscosity = (Intrinsic Permeability*Acceleration due to Gravity)/Coefficient of Permeability

Equation for Specific or Intrinsic Permeability

Go Intrinsic Permeability = Shape Factor*Mean Particle Size of the Porous Medium^2

Kinematic Viscosity and Dynamic Viscosity Relation

Go Kinematic Viscosity = Dynamic Viscosity of the Fluid/Density of Fluid

Unit weight of fluid

Go Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity

Coefficient of Permeability when Transmissibility is Considered

Go Coefficient of Permeability = Transmissibility/Aquifer Thickness

Equivalent permeability when transmissivity of aquifer is considered

Go Equivalent Permeability = Transmissivity/Aquifer Thickness

Unit weight of fluid Formula

Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity
γ = ρ_fluid*g

What is Darcy's Law in Hydrology?

Darcy's law is an equation that describes the flow of a fluid through a porous medium. The law was formulated by Henry Darcy based on results of experiments on the flow of water through beds of sand, forming the basis of hydrogeology, a branch of earth sciences.

How to Calculate Unit weight of fluid?

Unit weight of fluid calculator uses Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity to calculate the Unit Weight of Fluid, The Unit weight of fluid also known as the unit weight is defined as the weight per unit volume of a material/ fluid. Unit Weight of Fluid is denoted by γ symbol.

How to calculate Unit weight of fluid using this online calculator? To use this online calculator for Unit weight of fluid, enter Density of Fluid (ρ_fluid) & Acceleration due to Gravity (g) and hit the calculate button. Here is how the Unit weight of fluid calculation can be explained with given input values -> 0.009771 = 997*9.8.

FAQ

What is Unit weight of fluid?

The Unit weight of fluid also known as the unit weight is defined as the weight per unit volume of a material/ fluid and is represented as γ = ρ_fluid*g or Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity. Density of Fluid is defined as the mass of fluid per unit volume of the said fluid & Acceleration due to Gravity is acceleration gained by an object because of gravitational force.

How to calculate Unit weight of fluid?

The Unit weight of fluid also known as the unit weight is defined as the weight per unit volume of a material/ fluid is calculated using Unit Weight of Fluid = Density of Fluid*Acceleration due to Gravity. To calculate Unit weight of fluid, you need Density of Fluid (ρ_fluid) & Acceleration due to Gravity (g). With our tool, you need to enter the respective value for Density of Fluid & Acceleration due to Gravity 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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