Modulus of elasticity when flexibility factor is given Calculator

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Engineering	Civil ↺
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Highway-And-Road	Designing highway culverts ↺

✖Pipe Diameter is the diameter of the pipe in which the liquid is flowing.ⓘ Pipe Diameter [PD]			+10% -10%
✖Flexibility factor can be described as the minimum pipe stiffness requirements for practical handling and installation, without undue care or bracing.ⓘ Flexibility factor [F_F]			+10% -10%
✖Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.ⓘ Moment of Inertia [I]			+10% -10%

✖Modulus Of Elasticity is a quantity that measures an object or substance's resistance to being deformed elastically when a stress is applied to it.ⓘ Modulus of elasticity when flexibility factor is given [E]

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Modulus of elasticity when flexibility factor is given

M Naveen

National Institute of Technology (NIT), Warangal

M Naveen has created this Calculator and 100+ more calculators!

Rithik Agrawal

National Institute of Technology Karnataka (NITK), Surathkal

Rithik Agrawal has verified this Calculator and 100+ more calculators!

< 11 Other formulas that you can solve using the same Inputs

Impulsive Torque

Impulsive Torque=(Moment of Inertia*(Final Angular Velocity-Angular velocity))/Time Taken to Travel GO

Strain Energy if moment value is given

Strain Energy=(Bending moment*Bending moment*Length)/(2*Elastic Modulus*Moment of Inertia) GO

Head Loss due to friction

Head loss=Darcy friction factor*Fluid Velocity^(2)*Length/(Pipe Diameter*2*[g]) GO

Reynolds Number

Reynolds Number=Liquid Density*Fluid Velocity*Pipe Diameter/Dynamic viscosity GO

Center of Gravity

Centre of gravity=Moment of Inertia/(Volume*(Centre of Buoyancy+Metacenter)) GO

Center of Buoyancy

Centre of Buoyancy=Moment of Inertia/(Volume*Centre of gravity)-Metacenter GO

Metacenter

Metacenter=Moment of Inertia/(Volume*Centre of gravity)-Centre of Buoyancy GO

Deflection of fixed beam with load at center

Deflection=-Width*(Length^3)/(192*Elastic Modulus*Moment of Inertia) GO

Section Modulus

Section Modulus=(Moment of Inertia)/(Distance from the Neutral axis) GO

Deflection of fixed beam with uniformly distributed load

Deflection=-Width*Length^4/(384*Elastic Modulus*Moment of Inertia) GO

Angular Momentum

Angular Momentum=Moment of Inertia*Angular Velocity GO

< 11 Other formulas that calculate the same Output

Elastic Modulus of Concrete when Ultimate Shear Connector Strength for Welded Studs is Given

Modulus Of Elasticity=(((Ultimate Shear Connector Strength/(0.4*Diameter *Diameter ))^2)/28 Day Compressive Strength of Concrete) GO

Young's Modulus of the Bolt When Stiffness of the Bolt is Given

Modulus Of Elasticity=(stiffness of the bolt*total thickness of parts held together by the bolt*4)/((Nominal Diameter^2)*pi) GO

Elasticity Modulus when Allowable Unit Stress on Timber Columns for a Single Member is Given

Modulus Of Elasticity=total allowable load*((unsupported length of column/Radius of gyration)^2)/(3.619*area of column) GO

Elasticity Modulus when Allowable Compressive Stress in a Rectangular Section is Given

Modulus Of Elasticity=(ACS parallel to grain in given column*(Unbraced Length of the member/least dimension)^2)/0.3 GO

modulus of elasticity when Bulking stress For diameters greater than 126.5r/K is given

Modulus Of Elasticity= (Bulking stress*(Soil stiffness factor*Pipe Diameter /Least Radius of Gyration)^2)/12 GO

Elasticity Modulus when Allowable Unit Stress of Circular Timber Columns is Given

Modulus Of Elasticity=(Allowable Unit Stress*((unsupported length of column/least dimension)^2))/0.22 GO

Modulus of Elasticity

Modulus Of Elasticity= ((Weight of Concrete)^1.5)*33* sqrt(28 Day Compressive Strength of Concrete) GO

Elasticity Modulus when Allowable Unit Stress of Square or Rectangular Timber Columns is Given

Modulus Of Elasticity=(Allowable Unit Stress*((unsupported length of column/least dimension)^2))/0.3 GO

Modulus of Elasticity when Strain Energy in Bending is Given

Modulus Of Elasticity=Length*(Bending moment^2)/(2*Strain Energy*Moment of Inertia) GO

Modulus of Elasticity if compressive stress and strain is known

Modulus Of Elasticity=(Compressive stress/Compressive strain) GO

Modulus of Elasticity if tensile stress and strain is known

Modulus Of Elasticity=(Tensile Stress/Tensile Strain) GO

Modulus of elasticity when flexibility factor is given Formula

Modulus Of Elasticity= Pipe Diameter^2/(Flexibility factor*Moment of Inertia)
E= PD^2/(F<sub>F</sub>*I)

More formulas

Thrust of structure GO

Span diameter when thrust is given GO

Live load pressure when thrust is given GO

Dead load pressure when thrust is given GO

Flexibility factor GO

Pipe diameter when flexibility factor is given GO

Moment of inertia when flexibility factor is given GO

Bulking stress GO

Soil stiffness factor when bulking stress is given GO

Pipe diamter when bulking stress is given GO

Radius of gyration when bulking stress is given GO

Bulking stress For diameters greater than 126.5r/K GO

modulus of elasticity when Bulking stress For diameters greater than 126.5r/K is given GO

soil stiffness factor when Bulking stress For diameters greater than 126.5r/K is given GO

Pipe diameter when Bulking stress For diameters greater than 126.5r/K is given GO

Radius of gyration when Bulking stress For diameters greater than 126.5r/K is given GO

What is flexibility factor?

Flexibility factor is defined as the handling and installation strength e to withstand shipping and placing of the pipe in the desired position at the highway job site.

How to Calculate Modulus of elasticity when flexibility factor is given?

Modulus of elasticity when flexibility factor is given calculator uses Modulus Of Elasticity= Pipe Diameter^2/(Flexibility factor*Moment of Inertia) to calculate the Modulus Of Elasticity, The Modulus of elasticity when flexibility factor is given can be defined as the mechanical property of a material to withstand the compression or the elongation with respect to its length. Modulus Of Elasticity and is denoted by E symbol.

How to calculate Modulus of elasticity when flexibility factor is given using this online calculator? To use this online calculator for Modulus of elasticity when flexibility factor is given, enter Pipe Diameter (PD), Flexibility factor (F_F) and Moment of Inertia (I) and hit the calculate button. Here is how the Modulus of elasticity when flexibility factor is given calculation can be explained with given input values -> 0.009877 = 1^2/(0.09*1.125).

FAQ

What is Modulus of elasticity when flexibility factor is given?

The Modulus of elasticity when flexibility factor is given can be defined as the mechanical property of a material to withstand the compression or the elongation with respect to its length and is represented as E= PD^2/(F_F*I) or Modulus Of Elasticity= Pipe Diameter^2/(Flexibility factor*Moment of Inertia). Pipe Diameter is the diameter of the pipe in which the liquid is flowing, Flexibility factor can be described as the minimum pipe stiffness requirements for practical handling and installation, without undue care or bracing and Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.

How to calculate Modulus of elasticity when flexibility factor is given?

The Modulus of elasticity when flexibility factor is given can be defined as the mechanical property of a material to withstand the compression or the elongation with respect to its length is calculated using Modulus Of Elasticity= Pipe Diameter^2/(Flexibility factor*Moment of Inertia). To calculate Modulus of elasticity when flexibility factor is given, you need Pipe Diameter (PD), Flexibility factor (F_F) and Moment of Inertia (I). With our tool, you need to enter the respective value for Pipe Diameter, Flexibility factor and Moment of Inertia 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 Modulus Of Elasticity?

In this formula, Modulus Of Elasticity uses Pipe Diameter, Flexibility factor and Moment of Inertia. We can use 11 other way(s) to calculate the same, which is/are as follows -

Modulus Of Elasticity=Length*(Bending moment^2)/(2*Strain Energy*Moment of Inertia)
Modulus Of Elasticity= ((Weight of Concrete)^1.5)*33* sqrt(28 Day Compressive Strength of Concrete)
Modulus Of Elasticity=(Tensile Stress/Tensile Strain)
Modulus Of Elasticity=(Compressive stress/Compressive strain)
Modulus Of Elasticity=total allowable load*((unsupported length of column/Radius of gyration)^2)/(3.619*area of column)
Modulus Of Elasticity=(Allowable Unit Stress*((unsupported length of column/least dimension)^2))/0.3
Modulus Of Elasticity=(Allowable Unit Stress*((unsupported length of column/least dimension)^2))/0.22
Modulus Of Elasticity=(ACS parallel to grain in given column*(Unbraced Length of the member/least dimension)^2)/0.3
Modulus Of Elasticity=(((Ultimate Shear Connector Strength/(0.4*Diameter *Diameter ))^2)/28 Day Compressive Strength of Concrete)
Modulus Of Elasticity=(stiffness of the bolt*total thickness of parts held together by the bolt*4)/((Nominal Diameter^2)*pi)
Modulus Of Elasticity= (Bulking stress*(Soil stiffness factor*Pipe Diameter /Least Radius of Gyration)^2)/12

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