M Naveen
National Institute of Technology (NIT), Warangal
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Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
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11 Other formulas that you can solve using the same Inputs

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
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
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

Metal thickness when flexibility factor is given Formula

Metal thickness= sqrt(Flexibility factor*Modulus Of Elasticity*Moment of Inertia)
D<sub>= sqrt(F<sub>F</sub>*E*I)
More formulas
design pressure(Pv) acting on the steel GO
design pressure(Pv) if the height of cover is less than one pipe diameter GO
design pressure(Pv) when the height of cover is equal to, or greater than, one pipe diameter GO
Total load when design pressure(Pv) is given GO
Compressive thrust on the conduit wall GO
Design pressure(Pv) when compressive thrust is given GO
Compressive thrust when axial load is given GO
The ultimate wall stress when the ratio D/r does not exceed 294 GO
The ultimate wall stress when the ratio D/r r exceeds 294 but not 500 GO
The ultimate wall stress when the ratio D/r is more than 500 GO
Design stress when saftey factor 2 is applied. GO
Required wall area of width when allowable stress is given GO
Flexibilty factor limits GO

What is flexibility factor?

Flexibility factors can be defined as the Minimum pipe stiffness requirements for practical handling and installation, without undue care or bracing.

How to Calculate Metal thickness when flexibility factor is given?

Metal thickness when flexibility factor is given calculator uses Metal thickness= sqrt(Flexibility factor*Modulus Of Elasticity*Moment of Inertia) to calculate the Metal thickness, The Metal thickness when flexibility factor is given can be defined as the thickness of metal from the pipe. Metal thickness and is denoted by D symbol.

How to calculate Metal thickness when flexibility factor is given using this online calculator? To use this online calculator for Metal thickness when flexibility factor is given, enter Flexibility factor (FF), Modulus Of Elasticity (E) and Moment of Inertia (I) and hit the calculate button. Here is how the Metal thickness when flexibility factor is given calculation can be explained with given input values -> 31.81981 = sqrt(0.09*10000*1.125).

FAQ

What is Metal thickness when flexibility factor is given?
The Metal thickness when flexibility factor is given can be defined as the thickness of metal from the pipe and is represented as DF*E*I) or Metal thickness= sqrt(Flexibility factor*Modulus Of Elasticity*Moment of Inertia). Flexibility factor can be described as the minimum pipe stiffness requirements for practical handling and installation, without undue care or bracing, 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 and Moment of Inertia is the measure of the resistance of a body to angular acceleration about a given axis.
How to calculate Metal thickness when flexibility factor is given?
The Metal thickness when flexibility factor is given can be defined as the thickness of metal from the pipe is calculated using Metal thickness= sqrt(Flexibility factor*Modulus Of Elasticity*Moment of Inertia). To calculate Metal thickness when flexibility factor is given, you need Flexibility factor (FF), Modulus Of Elasticity (E) and Moment of Inertia (I). With our tool, you need to enter the respective value for Flexibility factor, Modulus Of Elasticity 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.
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