Specific Weight of Fill Material given Load Per Unit Length for Pipes Calculator

✖Load per unit length is defined as load applied per unit length of the pipe.ⓘ Load per unit Length [W]			+10% -10%
✖Pipe coefficient is a constant depend upon pipe dimension.ⓘ Pipe coefficient [C_p]			+10% -10%
✖External diameter is the outer diameter of the pipe.ⓘ External diameter [D]			+10% -10%

✖Specific weight of fill is defined as the weight per unit volume of fill.ⓘ Specific Weight of Fill Material given Load Per Unit Length for Pipes [γ]

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Formula

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Specific Weight of Fill Material given Load Per Unit Length for Pipes

Formula

`"γ" = "W"/("C"_{"p"}*("D")^2)`

Example

`"4.583333kN/m³"="22kN/m"/("1.2"*("2m")^2)`

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Specific Weight of Fill Material given Load Per Unit Length for Pipes Solution

STEP 0: Pre-Calculation Summary

Formula Used

Specific Weight of Fill = Load per unit Length/(Pipe coefficient*(External diameter)^2)
γ = W/(C_p*(D)^2)
This formula uses 4 Variables

Variables Used

Specific Weight of Fill - (Measured in Newton per Cubic Meter) - Specific weight of fill is defined as the weight per unit volume of fill.
Load per unit Length - (Measured in Newton per Meter) - Load per unit length is defined as load applied per unit length of the pipe.
Pipe coefficient - Pipe coefficient is a constant depend upon pipe dimension.
External diameter - (Measured in Meter) - External diameter is the outer diameter of the pipe.

STEP 1: Convert Input(s) to Base Unit

Load per unit Length: 22 Kilonewton per Meter --> 22000 Newton per Meter (Check conversion here)
Pipe coefficient: 1.2 --> No Conversion Required
External diameter: 2 Meter --> 2 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

γ = W/(C_p*(D)^2) --> 22000/(1.2*(2)^2)

Evaluating ... ...

γ = 4583.33333333333

STEP 3: Convert Result to Output's Unit

4583.33333333333 Newton per Cubic Meter -->4.58333333333333 Kilonewton per Cubic Meter (Check conversion here)

FINAL ANSWER

4.58333333333333 ≈ 4.583333 Kilonewton per Cubic Meter <-- Specific Weight of Fill

(Calculation completed in 00.004 seconds)

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Created by Suraj Kumar

Birsa Institute of Technology (BIT), Sindri

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< 16 Pressure Due to External Loads Calculators

Distance of Top of Pipe to below Surface of Fill given Unit Pressure

Go Distance between pipe and fill = ((Unit Pressure*2*pi*(Slant Height)^5)/(3*Superimposed load))^(1/3)

Slant Height of considered Point given Unit Pressure

Go Slant Height = ((3*Superimposed load*(Distance between pipe and fill)^3)/(2*pi*Unit Pressure))^(1/5)

Unit Pressure Developed at any Point in Fill at Depth

Go Unit Pressure = (3*(Distance between pipe and fill)^3*Superimposed load)/(2*pi*(Slant Height)^5)

Superimposed Load given Unit Pressure

Go Superimposed load = (2*pi*Unit Pressure*(Slant Height)^5)/(3*(Distance between pipe and fill)^3)

External Diameter of Pipe given Load Per Unit Length for Pipes

Go External diameter = sqrt(Load per unit Length/(Pipe coefficient*Specific Weight of Fill))

Pipe Coefficient given Load Per Unit Length for Pipes

Go Pipe coefficient = (Load per unit Length/(Specific Weight of Fill*(External diameter)^2))

Specific Weight of Fill Material given Load Per Unit Length for Pipes

Go Specific Weight of Fill = Load per unit Length/(Pipe coefficient*(External diameter)^2)

Load Per Unit Length for Pipes Resting on Undisturbed Ground on Cohesion Less Soil

Go Load per unit Length = Pipe coefficient*Specific Weight of Fill*(External diameter)^2

Coefficient of Thermal Expansion given Elongation in Pipes

Go Thermal Expansion Coefficient = Elongation/(Initial Length*Change in Temperature)

Coefficient of Expansion of Material given Stress in Pipe

Go Coefficient of Thermal Expansion = Stress/(Change in Temperature*Elastic Modulus)

Change in Temperature given Elongation in Pipes

Go Change in Temperature = Elongation/(Initial Length*Thermal Expansion Coefficient)

Change in Temperature given Stress in Pipe

Go Change in Temperature = Stress/(Coefficient of Thermal Expansion*Elastic Modulus)

Load Per Unit Length for Pipes given Compressive Stress

Go Load per unit Length = (Compressive Stress*Thickness)-Total Load per Unit Length

Compressive Stress Produced when Pipe is Empty

Go Compressive Stress = (Load per unit Length+Total Load per Unit Length)/Thickness

Thickness of Pipes given Compressive Stress

Go Thickness = (Total Load per Unit Length+Load per unit Length)/Compressive Stress

Elongation in Pipes given Change in Temperature

Go Elongation = Initial Length*Thermal Expansion Coefficient*Change in Temperature

Specific Weight of Fill Material given Load Per Unit Length for Pipes Formula

Specific Weight of Fill = Load per unit Length/(Pipe coefficient*(External diameter)^2)
γ = W/(C_p*(D)^2)

What is specific gravity?

Specific gravity is the "heaviness" of a mineral. It is defined as a number that expresses the ratio between the weight of a mineral and the weight of an equal volume of water.

How to Calculate Specific Weight of Fill Material given Load Per Unit Length for Pipes?

Specific Weight of Fill Material given Load Per Unit Length for Pipes calculator uses Specific Weight of Fill = Load per unit Length/(Pipe coefficient*(External diameter)^2) to calculate the Specific Weight of Fill, The Specific Weight of Fill Material given Load Per Unit Length for Pipes is defined as the ratio of the density of a substance to the density of some substance taken as a standard. Specific Weight of Fill is denoted by γ symbol.

How to calculate Specific Weight of Fill Material given Load Per Unit Length for Pipes using this online calculator? To use this online calculator for Specific Weight of Fill Material given Load Per Unit Length for Pipes, enter Load per unit Length (W), Pipe coefficient (C_p) & External diameter (D) and hit the calculate button. Here is how the Specific Weight of Fill Material given Load Per Unit Length for Pipes calculation can be explained with given input values -> 0.004583 = 22000/(1.2*(2)^2).

FAQ

What is Specific Weight of Fill Material given Load Per Unit Length for Pipes?

The Specific Weight of Fill Material given Load Per Unit Length for Pipes is defined as the ratio of the density of a substance to the density of some substance taken as a standard and is represented as γ = W/(C_p*(D)^2) or Specific Weight of Fill = Load per unit Length/(Pipe coefficient*(External diameter)^2). Load per unit length is defined as load applied per unit length of the pipe, Pipe coefficient is a constant depend upon pipe dimension & External diameter is the outer diameter of the pipe.

How to calculate Specific Weight of Fill Material given Load Per Unit Length for Pipes?

The Specific Weight of Fill Material given Load Per Unit Length for Pipes is defined as the ratio of the density of a substance to the density of some substance taken as a standard is calculated using Specific Weight of Fill = Load per unit Length/(Pipe coefficient*(External diameter)^2). To calculate Specific Weight of Fill Material given Load Per Unit Length for Pipes, you need Load per unit Length (W), Pipe coefficient (C_p) & External diameter (D). With our tool, you need to enter the respective value for Load per unit Length, Pipe coefficient & External diameter 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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