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Web Thickness given Moment of Inertia of Longitudinal Stiffeners Formula

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Web Thickness is the thickness of the web of the I-section of any beam or column which is between the flanges. Check FAQs

t = {(\frac{I}{D \cdot (2.4 \cdot (\frac{{A o}^{2}}{D^{2}}) - 0.13)})}^{\frac{1}{3}}

t - Web Thickness?I - Moment of Inertia?D - Clear Distance between Flanges?A_o - Actual Distance between Transverse Stiffeners?

Web Thickness given Moment of Inertia of Longitudinal Stiffeners Example

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Here is how the Web Thickness given Moment of Inertia of Longitudinal Stiffeners equation looks like with Values.

Here is how the Web Thickness given Moment of Inertia of Longitudinal Stiffeners equation looks like with Units.

Here is how the Web Thickness given Moment of Inertia of Longitudinal Stiffeners equation looks like.

18.8822 = {(\frac{12320}{45 \cdot (2.4 \cdot (\frac{12^{2}}{45^{2}}) - 0.13)})}^{\frac{1}{3}}

18.8822mm = {(\frac{12320mm⁴}{45mm \cdot (2.4 \cdot (\frac{{12mm}^{2}}{{45mm}^{2}}) - 0.13)})}^{\frac{1}{3}}

18.8822 = {(\frac{12320}{45 \cdot (2.4 \cdot (\frac{12^{2}}{45^{2}}) - 0.13)})}^{\frac{1}{3}}

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Web Thickness given Moment of Inertia of Longitudinal Stiffeners Solution

Follow our step by step solution on how to calculate Web Thickness given Moment of Inertia of Longitudinal Stiffeners?

FIRST Step Consider the formula

t = {(\frac{I}{D \cdot (2.4 \cdot (\frac{{A o}^{2}}{D^{2}}) - 0.13)})}^{\frac{1}{3}}

Next Step Substitute values of Variables

∴

t = {(\frac{12320mm⁴}{45mm \cdot (2.4 \cdot (\frac{{12mm}^{2}}{{45mm}^{2}}) - 0.13)})}^{\frac{1}{3}}

Next Step Prepare to Evaluate

∴

t = {(\frac{12320}{45 \cdot (2.4 \cdot (\frac{12^{2}}{45^{2}}) - 0.13)})}^{\frac{1}{3}}

Next Step Evaluate

∴

t = 0.0188822266376205m

Next Step Convert to Output's Unit

∴

t = 18.8822266376205mm

LAST Step Rounding Answer

∴

t = 18.8822mm

Web Thickness given Moment of Inertia of Longitudinal Stiffeners Formula Elements

Variables

Web Thickness

Web Thickness is the thickness of the web of the I-section of any beam or column which is between the flanges.

Symbol: t

Measurement: LengthUnit: mm

Note: Value can be positive or negative.

Formulas to find Web Thickness

Moment of Inertia

The moment of inertia is the quantity expressed by the body resisting angular acceleration, which is the sum of the product of the mass with its square of the distance from the axis of rotation.

Symbol: I

Measurement: Second Moment of AreaUnit: mm⁴

Note: Value can be positive or negative.

Formulas to find Moment of Inertia

Clear Distance between Flanges

The clear distance between flanges is the support length of the web of an I-section.

Symbol: D

Measurement: LengthUnit: mm

Note: Value can be positive or negative.

Formulas to find Clear Distance between Flanges

Actual Distance between Transverse Stiffeners

The actual distance between transverse stiffeners is the distance between which are aligned normal to the span direction of the beam.

Symbol: A_o

Measurement: LengthUnit: mm

Note: Value can be positive or negative.

Formulas to find Actual Distance between Transverse Stiffeners

Other formulas in Longitudinal Stiffeners category

Go Moment of Inertia of Longitudinal Stiffeners

I = D \cdot t^{3} \cdot (2.4 \cdot (\frac{{A o}^{2}}{D^{2}}) - 0.13)

How to Evaluate Web Thickness given Moment of Inertia of Longitudinal Stiffeners?

Web Thickness given Moment of Inertia of Longitudinal Stiffeners evaluator uses Web Thickness = (Moment of Inertia/(Clear Distance between Flanges*(2.4*(Actual Distance between Transverse Stiffeners^2/Clear Distance between Flanges^2)-0.13)))^(1/3) to evaluate the Web Thickness, The Web Thickness given Moment of Inertia of Longitudinal Stiffeners formula is defined as the width of the web of the section in the lateral direction. Web Thickness is denoted by t symbol.

How to evaluate Web Thickness given Moment of Inertia of Longitudinal Stiffeners using this online evaluator? To use this online evaluator for Web Thickness given Moment of Inertia of Longitudinal Stiffeners, enter Moment of Inertia (I), Clear Distance between Flanges (D) & Actual Distance between Transverse Stiffeners (A_o) and hit the calculate button.

FAQs on Web Thickness given Moment of Inertia of Longitudinal Stiffeners

What is the formula to find Web Thickness given Moment of Inertia of Longitudinal Stiffeners?

The formula of Web Thickness given Moment of Inertia of Longitudinal Stiffeners is expressed as Web Thickness = (Moment of Inertia/(Clear Distance between Flanges*(2.4*(Actual Distance between Transverse Stiffeners^2/Clear Distance between Flanges^2)-0.13)))^(1/3). Here is an example- 18882.23 = (1.232E-08/(0.045*(2.4*(0.012^2/0.045^2)-0.13)))^(1/3).

How to calculate Web Thickness given Moment of Inertia of Longitudinal Stiffeners?

With Moment of Inertia (I), Clear Distance between Flanges (D) & Actual Distance between Transverse Stiffeners (A_o) we can find Web Thickness given Moment of Inertia of Longitudinal Stiffeners using the formula - Web Thickness = (Moment of Inertia/(Clear Distance between Flanges*(2.4*(Actual Distance between Transverse Stiffeners^2/Clear Distance between Flanges^2)-0.13)))^(1/3).

Can the Web Thickness given Moment of Inertia of Longitudinal Stiffeners be negative?

Yes, the Web Thickness given Moment of Inertia of Longitudinal Stiffeners, measured in Length can be negative.

Which unit is used to measure Web Thickness given Moment of Inertia of Longitudinal Stiffeners?

Web Thickness given Moment of Inertia of Longitudinal Stiffeners is usually measured using the Millimeter[mm] for Length. Meter[mm], Kilometer[mm], Decimeter[mm] are the few other units in which Web Thickness given Moment of Inertia of Longitudinal Stiffeners can be measured.

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Web Thickness given Moment of Inertia of Longitudinal Stiffeners Formula

Web Thickness given Moment of Inertia of Longitudinal Stiffeners Example

Web Thickness given Moment of Inertia of Longitudinal Stiffeners Solution

Web Thickness given Moment of Inertia of Longitudinal Stiffeners Formula Elements

Other formulas in Longitudinal Stiffeners category

How to Evaluate Web Thickness given Moment of Inertia of Longitudinal Stiffeners?

FAQs on Web Thickness given Moment of Inertia of Longitudinal Stiffeners

Variable Name