Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
Suraj Kumar has created this Calculator and 500+ more calculators!
Ishita Goyal
Meerut Institute of Engineering and Technology (MIET), Meerut
Ishita Goyal has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Stress at Point y for a Curved Beam
Stress=((Bending Moment )/(Cross sectional area*Radius of Centroidal Axis))*(1+((Distance of Point from Centroidal Axis)/(Cross-Section Property*(Radius of Centroidal Axis+Distance of Point from Centroidal Axis)))) GO
Bending Moment When Stress is Applied at Point y in a Curved Beam
Bending Moment =((Stress*Cross sectional area*Radius of Centroidal Axis)/(1+(Distance of Point from Centroidal Axis/(Cross-Section Property*(Radius of Centroidal Axis+Distance of Point from Centroidal Axis))))) GO
Maximum Stress For Short Beams
Maximum stress at crack tip=(Axial Load/Cross sectional area)+((Maximum Bending Moment*Distance from the Neutral axis)/Moment of Inertia) GO
Axial Load when Maximum Stress For Short Beams is Given
Axial Load=Cross sectional area*(Maximum stress at crack tip-(Maximum Bending Moment*Distance from the Neutral axis/Moment of Inertia)) GO
Electric Current when Drift Velocity is Given
Electric Current=Number of free charge particles per unit volume*[Charge-e]*Cross sectional area*Drift Velocity GO
Head loss due to Laminar Flow
Head loss=(128*Viscous Force*Rate of flow*Length of Pipe)/(specific weight of liquid*pi*(Diameter of Pipe)^(4)) GO
Hydraulic Transmission of Power
Power=specific weight of liquid*Rate of flow*(Total Head at Entrance-Head loss) GO
Resistance
Resistance=(Resistivity*Length of Conductor)/Cross sectional area GO
Centrifugal Stress
Centrifugal Stress=2*Tensile Stress*Cross sectional area GO
Power Required to Overcome the Frictional Resistance in Laminar Flow
Power=specific weight of liquid*Rate of flow*Head loss GO
Rate of Flow
Rate of flow=Cross sectional area*Average Velocity GO

Coefficient of Permeability when Rate of Flow of Water is Given Formula

Coefficient of permeability=(Rate of flow/(Hydraulic gradient*Cross sectional area))
k=(Q/(i*A))
More formulas
Volume of Soil for Sand Filling in Sand Cone Method GO
Weight of Sand Filling Hole when Volume of Soil for Sand Filling in Sand Cone Method is Given GO
Density of Sand when Volume of Soil for Sand Filling in Sand Cone Method is Given GO
Percent Moisture in Sand Cone Method GO
Weight of Moist Soil when Percent Moisture in Sand Cone Method is Given GO
Weight of Dry Soil when Percent Moisture in Sand Cone Method is Given GO
Field Density in Sand Cone Method GO
Weight of Soil when Field Density in Sand Cone Method is Given GO
Volume of Soil when Field Density in Sand Cone Method is Given GO
Dry Density of Soil in Sand Cone Method GO
Field Density of Soil when Dry Density of Soil in Sand Cone Method is Given GO
Percent Moisture Content when Dry Density of Soil in Sand Cone Method is Given GO
Settlement of Full Size Footing in Load Bearing Test GO
Percent Compaction of Soil in Sand Cone Method GO
Dry Density of Soil when Percent Compaction of Soil in Sand Cone Method is Given GO
Maximum Dry Density when Percent Compaction of Soil in Sand Cone Method is Given GO
Settlement of a Plate in Load Bearing Test GO
Width of Full Size Bearing Plate in Load Bearing Test GO
California Bearing Ratio for Strength of Soil that Underlies a Pavement GO
Force per Unit Area Required to Penetrate a Soil Mass with a Circular Piston when CBR is Given GO
Force per Unit Area Required for Penetration of a Standard Material when CBR is Given GO
Rate of Flow of Water Through Saturated Soil according to Darcy's Law GO
Hydraulic Gradient when Rate of Flow of Water is Given GO
Cross-sectional Area of Soil Conveying Flow when Rate of Flow of Water is Given GO

What is coefficient of permeability ?

The coefficient of permeability of a soil describes how easily a liquid will move through a soil. It is also commonly referred to as the hydraulic conductivity of a soil. This factor can be affected by the viscosity, or thickness(fluidity) of a liquid and its density.

How to Calculate Coefficient of Permeability when Rate of Flow of Water is Given?

Coefficient of Permeability when Rate of Flow of Water is Given calculator uses Coefficient of permeability=(Rate of flow/(Hydraulic gradient*Cross sectional area)) to calculate the Coefficient of permeability, The Coefficient of Permeability when Rate of Flow of Water is Given is defined for a soil and describes how easily a liquid will move through a soil. It is also commonly referred to as the hydraulic conductivity of a soil. Coefficient of permeability and is denoted by k symbol.

How to calculate Coefficient of Permeability when Rate of Flow of Water is Given using this online calculator? To use this online calculator for Coefficient of Permeability when Rate of Flow of Water is Given, enter Rate of flow (Q), Hydraulic gradient (i) and Cross sectional area (A) and hit the calculate button. Here is how the Coefficient of Permeability when Rate of Flow of Water is Given calculation can be explained with given input values -> 50 = (10/(2*10)).

FAQ

What is Coefficient of Permeability when Rate of Flow of Water is Given?
The Coefficient of Permeability when Rate of Flow of Water is Given is defined for a soil and describes how easily a liquid will move through a soil. It is also commonly referred to as the hydraulic conductivity of a soil and is represented as k=(Q/(i*A)) or Coefficient of permeability=(Rate of flow/(Hydraulic gradient*Cross sectional area)). Rate of flow is the rate at which a liquid or other substance flows through a particular channel, pipe, etc, Hydraulic gradient is a specific measurement of liquid pressure above a vertical datum and Cross sectional area is the area of a two-dimensional shape that is obtained when a three dimensional shape is sliced perpendicular to some specifies axis at a point.
How to calculate Coefficient of Permeability when Rate of Flow of Water is Given?
The Coefficient of Permeability when Rate of Flow of Water is Given is defined for a soil and describes how easily a liquid will move through a soil. It is also commonly referred to as the hydraulic conductivity of a soil is calculated using Coefficient of permeability=(Rate of flow/(Hydraulic gradient*Cross sectional area)). To calculate Coefficient of Permeability when Rate of Flow of Water is Given, you need Rate of flow (Q), Hydraulic gradient (i) and Cross sectional area (A). With our tool, you need to enter the respective value for Rate of flow, Hydraulic gradient and Cross sectional area and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
Share Image
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!