Water Content with respect to Practical Value of Water Content Calculator

✖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 with respect to Practical Value of Water Content [w_s]

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Formula

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Water Content with respect to Practical Value of Water Content

Formula

`"w"_{"s"} = "w'"/(1-"w'")`

Example

`"0.176471"="0.15"/(1-"0.15")`

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Download Water Content of Soil and Related Formulas Formulas PDF

Water Content with respect to Practical Value of Water Content Solution

STEP 0: Pre-Calculation Summary

Formula Used

Water Content of Soil from Pycnometer = Practical Water Content/(1-Practical Water Content)
w_s = w'/(1-w')
This formula uses 2 Variables

Variables Used

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.
Practical Water Content - Practical Water Content is the water content used in agricultural fields.

STEP 1: Convert Input(s) to Base Unit

Practical Water Content: 0.15 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

w_s = w'/(1-w') --> 0.15/(1-0.15)

Evaluating ... ...

w_s = 0.176470588235294

STEP 3: Convert Result to Output's Unit

0.176470588235294 --> No Conversion Required

FINAL ANSWER

0.176470588235294 ≈ 0.176471 <-- Water Content of Soil from Pycnometer

(Calculation completed in 00.004 seconds)

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Credits

Created by Ishita Goyal

Meerut Institute of Engineering and Technology (MIET), Meerut

Ishita Goyal has created this Calculator and 500+ more calculators!

Verified by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

Suraj Kumar has verified this Calculator and 600+ more calculators!

< 18 Water Content of Soil and Related Formulas Calculators

Water Content of Soil from Pycnometer

Go Water Content of Soil from Pycnometer = ((((Weight of Empty Pycnometer and Moist Soil-Weight of Empty Pycnometer)/(Weight of Empty Pycnometer, Soil and Water-Weight of Empty Pycnometer and Water))*((Specific Gravity of Soil Solids-1)/Specific Gravity of Soil Solids))-1)

Water Content of Soil given Saturated Unit Weight

Go Water Content of Soil from Pycnometer = ((Saturated Unit Weight Of Soil*(1+Void Ratio)/(Specific Gravity of Soil*Unit Weight of Water))-1)

Total Volume of Soil given Water Content given Total Volume

Go Total Volume of Soil = Total Weight of Soil/(Dry Unit Weight of Soil*(1+Water Content of Soil from Pycnometer))

Water Content given Total Volume

Go Water Content of Soil from Pycnometer = (Total Weight of Soil/(Total Volume of Soil*Dry Unit Weight of Soil))-1

Total Weight of Soil given Water Content given Total Volume

Go Total Weight of Soil = Dry Unit Weight of Soil*Total Volume of Soil*(1+Water Content of Soil from Pycnometer)

Dry Unit Weight of Soil given Water Content in Total Volume

Go Dry Density = Total Weight of Soil/(Total Volume of Soil*(1+Water Content of Soil from Pycnometer))

Water Content with respect to Practical Value of Water Content

Go Water Content of Soil from Pycnometer = Practical Water Content/(1-Practical Water Content)

Weight of Solids with respect to Water Content of Soil given Total Weight of Sample

Go Weight of Solids = Total Weight of Soil*100/(Water Content of Soil from Pycnometer+100)

Bulk Unit Weight of Soil given Dry Unit Weight of Soil in Water Content

Go Bulk unit Weight = Dry Unit Weight of Soil*(1+Water Content of Soil from Pycnometer)

Water Content given Dry Unit Weight of Soil in Water Content

Go Water Content of Soil from Pycnometer = (Bulk unit Weight/Dry Unit Weight of Soil)-1

Dry Unit Weight of Soil given Water Content

Go Dry Unit Weight of Soil = Bulk unit Weight/(1+Water Content of Soil from Pycnometer)

Water Content of Soil given Total Weight of Sample

Go Water Content of Soil from Pycnometer = ((Total Weight of Soil/Weight of Solids)-1)

Total Weight of Soil given Water Content in Total Weight of Soil

Go Total Weight of Soil = Weight of Solids*(1+Water Content of Soil from Pycnometer)

Weight of Solids given Water Content in Total Weight of Soil

Go Weight of Solids = Total Weight of Soil/(1+Water Content of Soil from Pycnometer)

Water Content of Soil with respect to its Mass

Go Water Content of Soil from Pycnometer = ((Total Mass of Sand/Mass of Solids)-1)

Water Content given Total Weight of Soil

Go Water Content of Soil from Pycnometer = Weight of Soil/Weight of Solids-1

Weight of Water given Practical Value of Water Content with respect to Total Weight

Go Weight of Water = (Practical Water Content*Total Weight of Soil)/100

Water Content with respect to Mass of Water

Go Water Content of Soil from Pycnometer = Mass of Water/Mass of Solids

Water Content with respect to Practical Value of Water Content Formula

Water Content of Soil from Pycnometer = Practical Water Content/(1-Practical Water Content)
w_s = w'/(1-w')

What is Practical Water Content?

The practical water content, is the water content which is in fact the real water content. The ratio of the weight of water to the total weight of soil mass.

How to Calculate Water Content with respect to Practical Value of Water Content?

Water Content with respect to Practical Value of Water Content calculator uses Water Content of Soil from Pycnometer = Practical Water Content/(1-Practical Water Content) to calculate the Water Content of Soil from Pycnometer, The Water Content with respect to Practical Value of Water Content is defined as Water content or moisture content is the quantity of water contained in a material, such as soil, rock, ceramics, crops, or wood. Water Content of Soil from Pycnometer is denoted by w_s symbol.

How to calculate Water Content with respect to Practical Value of Water Content using this online calculator? To use this online calculator for Water Content with respect to Practical Value of Water Content, enter Practical Water Content (w') and hit the calculate button. Here is how the Water Content with respect to Practical Value of Water Content calculation can be explained with given input values -> 0.176471 = 0.15/(1-0.15).

FAQ

What is Water Content with respect to Practical Value of Water Content?

How to calculate Water Content with respect to Practical Value of Water Content?

The Water Content with respect to Practical Value of Water Content is defined as Water content or moisture content is the quantity of water contained in a material, such as soil, rock, ceramics, crops, or wood is calculated using Water Content of Soil from Pycnometer = Practical Water Content/(1-Practical Water Content). To calculate Water Content with respect to Practical Value of Water Content, you need Practical Water Content (w'). With our tool, you need to enter the respective value for Practical Water Content 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 Water Content of Soil from Pycnometer?

In this formula, Water Content of Soil from Pycnometer uses Practical Water Content. We can use 8 other way(s) to calculate the same, which is/are as follows -

Water Content of Soil from Pycnometer = ((Saturated Unit Weight Of Soil*(1+Void Ratio)/(Specific Gravity of Soil*Unit Weight of Water))-1)
Water Content of Soil from Pycnometer = ((Total Weight of Soil/Weight of Solids)-1)
Water Content of Soil from Pycnometer = ((Total Mass of Sand/Mass of Solids)-1)
Water Content of Soil from Pycnometer = Mass of Water/Mass of Solids
Water Content of Soil from Pycnometer = Weight of Soil/Weight of Solids-1
Water Content of Soil from Pycnometer = (Total Weight of Soil/(Total Volume of Soil*Dry Unit Weight of Soil))-1
Water Content of Soil from Pycnometer = (Bulk unit Weight/Dry Unit Weight of Soil)-1
Water Content of Soil from Pycnometer = ((((Weight of Empty Pycnometer and Moist Soil-Weight of Empty Pycnometer)/(Weight of Empty Pycnometer, Soil and Water-Weight of Empty Pycnometer and Water))*((Specific Gravity of Soil Solids-1)/Specific Gravity of Soil Solids))-1)

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