Degree of Saturation given Dry Unit Weight of Soil Calculator

✖Dry Unit Weight of soil is the weight of soil solids per unit of total volume of soil mass.ⓘ Dry Unit Weight [γ_dry]			+10% -10%
✖Unit Weight of Water is mass per unit of water.ⓘ Unit Weight of Water [γ_water]			+10% -10%
✖Specific Gravity of Soil is an important property of soil being related to density.ⓘ Specific Gravity of Soil [G_s]			+10% -10%
✖Water Content of Soil from Pycnometer is the ratio of the weight of water to the weight of the solids in a given mass of soil.ⓘ Water Content of Soil from Pycnometer [w_s]			+10% -10%

✖Degree of Saturation is the ratio of the volume of water to the volume of voids.ⓘ Degree of Saturation given Dry Unit Weight of Soil [S]

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Formula

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Degree of Saturation given Dry Unit Weight of Soil

Formula

`"S" = (("γ"_{"dry"}/"γ"_{"water"})*((1/"G"_{"s"})+"w"_{"s"}))`

Example

`"0.615967"=(("6.12kN/m³"/"9.81kN/m³")*((1/"2.65")+"0.61"))`

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Download Soil Origin and Its Properties Formulas PDF

Degree of Saturation given Dry Unit Weight of Soil Solution

STEP 0: Pre-Calculation Summary

Formula Used

Degree of Saturation = ((Dry Unit Weight/Unit Weight of Water)*((1/Specific Gravity of Soil)+Water Content of Soil from Pycnometer))
S = ((γ_dry/γ_water)*((1/G_s)+w_s))
This formula uses 5 Variables

Variables Used

Degree of Saturation - Degree of Saturation is the ratio of the volume of water to the volume of voids.
Dry Unit Weight - (Measured in Kilonewton per Cubic Meter) - Dry Unit Weight of soil is the weight of soil solids per unit of total volume of soil mass.
Unit Weight of Water - (Measured in Kilonewton per Cubic Meter) - Unit Weight of Water is mass per unit of water.
Specific Gravity of Soil - Specific Gravity of Soil is an important property of soil being related to density.
Water Content of Soil from Pycnometer - Water Content of Soil from Pycnometer is the ratio of the weight of water to the weight of the solids in a given mass of soil.

STEP 1: Convert Input(s) to Base Unit

Dry Unit Weight: 6.12 Kilonewton per Cubic Meter --> 6.12 Kilonewton per Cubic Meter No Conversion Required
Unit Weight of Water: 9.81 Kilonewton per Cubic Meter --> 9.81 Kilonewton per Cubic Meter No Conversion Required
Specific Gravity of Soil: 2.65 --> No Conversion Required
Water Content of Soil from Pycnometer: 0.61 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

S = ((γ_dry/γ_water)*((1/G_s)+w_s)) --> ((6.12/9.81)*((1/2.65)+0.61))

Evaluating ... ...

S = 0.615966764756794

STEP 3: Convert Result to Output's Unit

0.615966764756794 --> No Conversion Required

FINAL ANSWER

0.615966764756794 ≈ 0.615967 <-- Degree of Saturation

(Calculation completed in 00.004 seconds)

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Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

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Verified by Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

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< 24 Soil Origin and Its Properties Calculators

Porosity Given Relative Density in Porosity

Go Porosity of Soil = (Maximum Porosity*(1-Minimum Porosity-Relative Density in Soil Mechanics)+Relative Density in Soil Mechanics*Minimum Porosity)/(1-Minimum Porosity+Relative Density in Soil Mechanics*Minimum Porosity-Relative Density in Soil Mechanics*Maximum Porosity)

Minimum Porosity given Relative Density in Porosity

Go Minimum Porosity = Maximum Porosity*(1+(Porosity of Soil*Relative Density)-Porosity of Soil-Relative Density)/(Maximum Porosity-Porosity of Soil-Relative Density+(Porosity of Soil*Relative Density))

Maximum Porosity given Relative Density in Porosity

Go Maximum Porosity = Minimum Porosity*(Relative Density-(Porosity of Soil*Relative Density)-Porosity of Soil+1)/(Relative Density-(Porosity of Soil*Relative Density)+Minimum Porosity-1)

Dry Unit Weight of Soil given Relative Density

Go Dry Unit Weight = ((Minimum Unit Weight*Maximum Unit Weight)/(Maximum Unit Weight-Relative Density in Soil Mechanics*(Maximum Unit Weight-Minimum Unit Weight)))

Relative density given porosity

Go Relative Density in Soil Mechanics = ((Maximum Porosity-Porosity of Soil)*(1-Minimum Porosity))/((Maximum Porosity-Minimum Porosity)*(1-Porosity of Soil))

Minimum Unit Weight of Soil given Relative Density

Go Minimum Unit Weight = ((Dry Unit Weight*Maximum Unit Weight*(Relative Density-1))/((Relative Density*Dry Unit Weight)-Maximum Unit Weight))

Maximum Unit Weight of Soil given Relative Density

Go Maximum Unit Weight = ((Minimum Unit Weight*Dry Unit Weight*Relative Density)/(Dry Unit Weight*(Relative Density-1)+Minimum Unit Weight))

Dry Unit Weight of Soil with any Degree of Saturation

Go Dry Unit Weight = ((Unit Weight of Water*Specific Gravity of Soil*Degree of Saturation)/(1+(Water Content of Soil from Pycnometer*Specific Gravity of Soil)))

Natural Void Ratio of Soil given Relative Density

Go Natural Void Ratio = (Maximum Void Ratio*(1-Relative Density in Soil Mechanics)+(Relative Density in Soil Mechanics*Minimum Void Ratio))

Relative Density of Cohesionless Soil given Unit Weight of Soil

Go Relative Density in Soil Mechanics = ((1/Minimum Unit Weight)-(1/Dry Unit Weight))/((1/Minimum Unit Weight)-(1/Maximum Unit Weight))

Degree of Saturation given Dry Unit Weight of Soil

Go Degree of Saturation = ((Dry Unit Weight/Unit Weight of Water)*((1/Specific Gravity of Soil)+Water Content of Soil from Pycnometer))

Relative Density of Cohesionless Soil given Void Ratio

Go Relative Density in Soil Mechanics = ((Maximum Void Ratio-Natural Void Ratio)/(Maximum Void Ratio-Minimum Void Ratio))

Maximum Void Ratio of Soil given Relative Density

Go Maximum Void Ratio = (Natural Void Ratio-(Relative Density*Minimum Void Ratio))/(1-Relative Density)

Minimum Void Ratio of Soil given Relative Density

Go Minimum Void Ratio = (Maximum Void Ratio-((Maximum Void Ratio-Natural Void Ratio)/Relative Density))

Specific Gravity of Soil given Degree of Saturation

Go Specific Gravity of Soil = ((Degree of Saturation*Void Ratio of Soil)/Water Content of Soil from Pycnometer)

Water Content of Soil given Degree of Saturation

Go Water Content of Soil from Pycnometer = ((Degree of Saturation*Void Ratio of Soil)/Specific Gravity of Soil)

Void Ratio of Soil given Degree of Saturation

Go Void Ratio of Soil = ((Water Content of Soil from Pycnometer*Specific Gravity of Soil)/Degree of Saturation)

Degree of Saturation of Soil

Go Degree of Saturation = ((Water Content of Soil from Pycnometer*Specific Gravity of Soil)/Void Ratio of Soil)

Porosity of Soil given Void Ratio

Go Porosity of Soil = (Void Ratio of Soil/(1+Void Ratio of Soil))

Void Ratio of Soil given Porosity

Go Void Ratio of Soil = (Porosity of Soil/(1-Porosity of Soil))

Total Volume of Soil using Porosity

Go Volume of Soil = (Volume of Voids/Porosity of Soil)

Volume of Voids using Porosity

Go Volume of Voids = (Porosity of Soil*Volume of Soil)

Void ratio of soil

Go Void Ratio of Soil = (Volume of Voids/Solid Volume)

Porosity of soil

Go Porosity of Soil = (Volume of Voids/Volume of Soil)

Degree of Saturation given Dry Unit Weight of Soil Formula

Degree of Saturation = ((Dry Unit Weight/Unit Weight of Water)*((1/Specific Gravity of Soil)+Water Content of Soil from Pycnometer))
S = ((γ_dry/γ_water)*((1/G_s)+w_s))

What is Degree of Saturation in Soil?

The degree of saturation is the ratio of the volume of water to the volume of voids. It is denoted by 'S'.The degree of saturation generally expressed as a percentage. It is equal to zero when the soil is absolutely dry and 100% when the soil is fully saturated.

How to Calculate Degree of Saturation given Dry Unit Weight of Soil?

Degree of Saturation given Dry Unit Weight of Soil calculator uses Degree of Saturation = ((Dry Unit Weight/Unit Weight of Water)*((1/Specific Gravity of Soil)+Water Content of Soil from Pycnometer)) to calculate the Degree of Saturation, The Degree of Saturation given Dry Unit Weight of Soil is defined as ratio of volume of water to volume of voids. Degree of Saturation is denoted by S symbol.

How to calculate Degree of Saturation given Dry Unit Weight of Soil using this online calculator? To use this online calculator for Degree of Saturation given Dry Unit Weight of Soil, enter Dry Unit Weight (γ_dry), Unit Weight of Water (γ_water), Specific Gravity of Soil (G_s) & Water Content of Soil from Pycnometer (w_s) and hit the calculate button. Here is how the Degree of Saturation given Dry Unit Weight of Soil calculation can be explained with given input values -> 0.615967 = ((6120/9810)*((1/2.65)+0.61)).

FAQ

What is Degree of Saturation given Dry Unit Weight of Soil?

The Degree of Saturation given Dry Unit Weight of Soil is defined as ratio of volume of water to volume of voids and is represented as S = ((γ_dry/γ_water)*((1/G_s)+w_s)) or Degree of Saturation = ((Dry Unit Weight/Unit Weight of Water)*((1/Specific Gravity of Soil)+Water Content of Soil from Pycnometer)). Dry Unit Weight of soil is the weight of soil solids per unit of total volume of soil mass, Unit Weight of Water is mass per unit of water, Specific Gravity of Soil is an important property of soil being related to density & Water Content of Soil from Pycnometer is the ratio of the weight of water to the weight of the solids in a given mass of soil.

How to calculate Degree of Saturation given Dry Unit Weight of Soil?

The Degree of Saturation given Dry Unit Weight of Soil is defined as ratio of volume of water to volume of voids is calculated using Degree of Saturation = ((Dry Unit Weight/Unit Weight of Water)*((1/Specific Gravity of Soil)+Water Content of Soil from Pycnometer)). To calculate Degree of Saturation given Dry Unit Weight of Soil, you need Dry Unit Weight (γ_dry), Unit Weight of Water (γ_water), Specific Gravity of Soil (G_s) & Water Content of Soil from Pycnometer (w_s). With our tool, you need to enter the respective value for Dry Unit Weight, Unit Weight of Water, Specific Gravity of Soil & Water Content of Soil from Pycnometer 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 Degree of Saturation?

In this formula, Degree of Saturation uses Dry Unit Weight, Unit Weight of Water, Specific Gravity of Soil & Water Content of Soil from Pycnometer. We can use 1 other way(s) to calculate the same, which is/are as follows -

Degree of Saturation = ((Water Content of Soil from Pycnometer*Specific Gravity of Soil)/Void Ratio of Soil)

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