Mass of Water Given Water Content with respect to Mass of Water Solution

STEP 0: Pre-Calculation Summary
Formula Used
Weight of Water in Soil Mechanics = Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100
Ww = ws*Ws/100
This formula uses 3 Variables
Variables Used
Weight of Water in Soil Mechanics - (Measured in Kilogram) - Weight of Water in Soil Mechanics is the total mass of water in soil.
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.
Weight Of Solids in Soil Mechanics - (Measured in Kilogram) - Weight Of Solids in Soil Mechanics means the actual weight of the solid particle present in the soil.
STEP 1: Convert Input(s) to Base Unit
Water Content of Soil from Pycnometer: 0.61 --> No Conversion Required
Weight Of Solids in Soil Mechanics: 5 Kilogram --> 5 Kilogram No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Ww = ws*Ws/100 --> 0.61*5/100
Evaluating ... ...
Ww = 0.0305
STEP 3: Convert Result to Output's Unit
0.0305 Kilogram --> No Conversion Required
FINAL ANSWER
0.0305 Kilogram <-- Weight of Water in Soil Mechanics
(Calculation completed in 00.004 seconds)

Credits

Created by Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
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Verified by Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
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22 Relationships of weights and volumes in soils Calculators

Water Content Given Dry Unit Weight and Percentage of Air Voids
Go Water Content of Soil from Pycnometer = ((1-Percentage of Air Voids)*Specific Gravity of Soil*Unit Weight of Water/Dry Unit Weight)-1/Specific Gravity of Soil
Saturated Unit Weight of Soil with Saturation 100 Percent
Go Saturated Unit Weight of Soil = (((Specific Gravity of Soil*Unit Weight of Water)+(Void Ratio of Soil*Unit Weight of Water))/(1+Void Ratio of Soil))
Degree of Saturation Given Dry Unit Weight and Water Content
Go Degree of Saturation in Soil Mechanics = Water Content of Soil from Pycnometer/((Specific Gravity of Soil*Unit Weight of Water/Dry Unit Weight)-1)
Saturated Unit Weight of Soil given Water Content
Go Saturated Unit Weight of Soil = (((1+Water Content of Soil from Pycnometer)*Specific Gravity of Soil*Unit Weight of Water)/(1+Void Ratio of Soil))
Water Content Given Dry Unit Weight
Go Water Content of Soil from Pycnometer = Degree of Saturation in Soil Mechanics*((Specific Gravity of Soil*Unit Weight of Water/Dry Unit Weight)-1)
Water Content Given Dry Unit Weight at Full Saturation
Go Water Content of Soil from Pycnometer = ((Specific Gravity of Soil*Unit Weight of Water/Dry Unit Weight)-1)/Specific Gravity of Soil
Saturated Unit Weight given Bulk Unit Weight and Degree of Saturation
Go Saturated Unit Weight of Soil = ((Bulk Unit Weight-Dry Unit Weight)/Degree of Saturation in Soil Mechanics)+Dry Unit Weight
Degree of Saturation Given Bulk Unit Weight and Degree of Saturation
Go Degree of Saturation in Soil Mechanics = (Bulk Unit Weight-Dry Unit Weight)/(Saturated Unit Weight of Soil-Dry Unit Weight)
Bulk Unit Weight Given Degree of Saturation
Go Bulk Unit Weight = Dry Unit Weight+(Degree of Saturation in Soil Mechanics*(Saturated Unit Weight of Soil-Dry Unit Weight))
Total Mass of Soil Given Water Content of Soil with respect to its Mass
Go Total Mass of Sand in Soil Mechanics = (Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100)+Weight Of Solids in Soil Mechanics
Water Content Given Void Ratio in Specific Gravity
Go Water Content of Soil from Pycnometer = Void Ratio*Degree of Saturation in Soil Mechanics/Specific Gravity of Soil
Submerged Unit Weight of Soil Given Porosity
Go Submerged Unit Weight in KN per Cubic Meter = Dry Unit Weight-(1-Porosity in Soil Mechanics)*Unit Weight of Water
Dry Density Given Void Ratio
Go Dry Density in Soil Mechanics = (Specific Gravity of Soil*Density of Water in Soil Mechanics)/(1+Void Ratio)
Density of Water Given Dry Density and Void Ratio
Go Density of Water in Soil Mechanics = Dry Density in Soil Mechanics*(1+Void Ratio)/Specific Gravity of Soil
Unit Weight of Solids Given Dry Unit Weight Given Unit Weight of Solids
Go Unit Weight of Solids = Dry Unit Weight*Total Volume in Soil Mechanics/Volume of Solids
Volume of Solids Given Dry Unit Weight in Unit Weight of Solids
Go Volume of Solids = Dry Unit Weight*Total Volume in Soil Mechanics/Unit Weight of Solids
Total Volume Given Dry Unit Weight in Unit Weight of Solids
Go Total Volume in Soil Mechanics = Unit Weight of Solids*Volume of Solids/Dry Unit Weight
Mass of Water Given Water Content with respect to Mass of Water
Go Weight of Water in Soil Mechanics = Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100
Dry Mass given Water Content with respect to Mass of Water
Go Weight Of Solids in Soil Mechanics = Weight of Water in Soil Mechanics*100/Water Content of Soil from Pycnometer
Water Content Given Void Ratio in Specific Gravity for Fully Saturated Soil
Go Water Content of Soil from Pycnometer = Void Ratio/Specific Gravity of Soil
Volume of Solids Given Density of Solids
Go Volume of Solids in Soil = Weight Of Solids in Soil Mechanics/Dry Density
Percentage Air Voids Given Porosity
Go Percentage of Air Voids = Porosity in Soil Mechanics*Air Content

Mass of Water Given Water Content with respect to Mass of Water Formula

Weight of Water in Soil Mechanics = Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100
Ww = ws*Ws/100

What is Water Content?

Water content or moisture content is the quantity of water contained in a material, such as soil, rock, ceramics, crops, or wood. Water content is used in a wide range of scientific and technical areas, and is expressed as a ratio.

How to Calculate Mass of Water Given Water Content with respect to Mass of Water?

Mass of Water Given Water Content with respect to Mass of Water calculator uses Weight of Water in Soil Mechanics = Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100 to calculate the Weight of Water in Soil Mechanics, The Mass of Water Given Water Content with respect to Mass of Water is defined as both property of physical body and measure of its resistance to acceleration when net force is applied. Weight of Water in Soil Mechanics is denoted by Ww symbol.

How to calculate Mass of Water Given Water Content with respect to Mass of Water using this online calculator? To use this online calculator for Mass of Water Given Water Content with respect to Mass of Water, enter Water Content of Soil from Pycnometer (ws) & Weight Of Solids in Soil Mechanics (Ws) and hit the calculate button. Here is how the Mass of Water Given Water Content with respect to Mass of Water calculation can be explained with given input values -> 0.0805 = 0.61*5/100.

FAQ

What is Mass of Water Given Water Content with respect to Mass of Water?
The Mass of Water Given Water Content with respect to Mass of Water is defined as both property of physical body and measure of its resistance to acceleration when net force is applied and is represented as Ww = ws*Ws/100 or Weight of Water in Soil Mechanics = Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100. 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 & Weight Of Solids in Soil Mechanics means the actual weight of the solid particle present in the soil.
How to calculate Mass of Water Given Water Content with respect to Mass of Water?
The Mass of Water Given Water Content with respect to Mass of Water is defined as both property of physical body and measure of its resistance to acceleration when net force is applied is calculated using Weight of Water in Soil Mechanics = Water Content of Soil from Pycnometer*Weight Of Solids in Soil Mechanics/100. To calculate Mass of Water Given Water Content with respect to Mass of Water, you need Water Content of Soil from Pycnometer (ws) & Weight Of Solids in Soil Mechanics (Ws). With our tool, you need to enter the respective value for Water Content of Soil from Pycnometer & Weight Of Solids in Soil Mechanics 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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