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Deflection at Top due to Fixed against Rotation Formula

GoDeflection at Top due to Uniform Load Formula

GoDeflection at Top due to Concentrated Load Formula

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The Deflection of Wall is the degree to which a structural element is displaced under a load (due to its deformation). Check FAQs

δ = (\frac{P}{E \cdot t}) \cdot ({(\frac{H}{L})}^{3} + 3 \cdot (\frac{H}{L}))

δ - Deflection of Wall?P - Concentrated Load on Wall?E - Modulus of Elasticity of Wall Material?t - Wall Thickness?H - Height of the Wall?L - Length of Wall?

Deflection at Top due to Fixed against Rotation Example

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Here is how the Deflection at Top due to Fixed against Rotation equation looks like with Values.

Here is how the Deflection at Top due to Fixed against Rotation equation looks like with Units.

Here is how the Deflection at Top due to Fixed against Rotation equation looks like.

0.1302 = (\frac{516.51}{20 \cdot 0.4}) \cdot ({(\frac{15}{25})}^{3} + 3 \cdot (\frac{15}{25}))

0.1302m = (\frac{516.51kN}{20MPa \cdot 0.4m}) \cdot ({(\frac{15m}{25m})}^{3} + 3 \cdot (\frac{15m}{25m}))

0.1302 = (\frac{516.51}{20 \cdot 0.4}) \cdot ({(\frac{15}{25})}^{3} + 3 \cdot (\frac{15}{25}))

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Deflection at Top due to Fixed against Rotation Solution

Follow our step by step solution on how to calculate Deflection at Top due to Fixed against Rotation?

FIRST Step Consider the formula

δ = (\frac{P}{E \cdot t}) \cdot ({(\frac{H}{L})}^{3} + 3 \cdot (\frac{H}{L}))

Next Step Substitute values of Variables

∴

δ = (\frac{516.51kN}{20MPa \cdot 0.4m}) \cdot ({(\frac{15m}{25m})}^{3} + 3 \cdot (\frac{15m}{25m}))

Next Step Convert Units

∴

δ = (\frac{516510N}{2E+7Pa \cdot 0.4m}) \cdot ({(\frac{15m}{25m})}^{3} + 3 \cdot (\frac{15m}{25m}))

Next Step Prepare to Evaluate

∴

δ = (\frac{516510}{2E+7 \cdot 0.4}) \cdot ({(\frac{15}{25})}^{3} + 3 \cdot (\frac{15}{25}))

Next Step Evaluate

∴

δ = 0.13016052m

LAST Step Rounding Answer

∴

δ = 0.1302m

Deflection at Top due to Fixed against Rotation Formula Elements

Variables

Deflection of Wall

The Deflection of Wall is the degree to which a structural element is displaced under a load (due to its deformation).

Symbol: δ

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Deflection of Wall

Concentrated Load on Wall

Concentrated Load on Wall is a structural load that acts on a small, localized area of a structure i.e. wall here.

Symbol: P

Measurement: ForceUnit: kN

Note: Value should be greater than 0.

Formulas to find Concentrated Load on Wall

Modulus of Elasticity of Wall Material

The Modulus of Elasticity of Wall Material is a quantity that measures an object or substance's resistance to being deformed elastically when a stress is applied to it.

Symbol: E

Measurement: PressureUnit: MPa

Note: Value should be greater than 0.

Formulas to find Modulus of Elasticity of Wall Material

Wall Thickness

Wall Thickness is the distance between the inner and outer surfaces of a hollow object or structure. It measures the thickness of the material comprising the walls.

Symbol: t

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Wall Thickness

Height of the Wall

Height of the Wall can be described as the height of the member(wall).

Symbol: H

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Height of the Wall

Length of Wall

Length of Wall is the measurement of a wall from one end to another. It is the larger of the two or the highest of three dimensions of geometrical shapes or objects.

Symbol: L

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Length of Wall

Other Formulas to find Deflection of Wall

Go Deflection at Top due to Uniform Load

δ = (\frac{1.5 \cdot w \cdot H}{E \cdot t}) \cdot ({(\frac{H}{L})}^{3} + (\frac{H}{L}))

Go Deflection at Top due to Concentrated Load

δ = (\frac{4 \cdot P}{E \cdot t}) \cdot ({(\frac{H}{L})}^{3} + 0.75 \cdot (\frac{H}{L}))

Other formulas in Load Distribution to Bents and Shear Walls category

Go Modulus of Elasticity of Wall Material given Deflection

E = (\frac{1.5 \cdot w \cdot H}{δ \cdot t}) \cdot ({(\frac{H}{L})}^{3} + (\frac{H}{L}))

Go Wall Thickness given Deflection

t = (\frac{1.5 \cdot w \cdot H}{E \cdot δ}) \cdot ({(\frac{H}{L})}^{3} + (\frac{H}{L}))

Go Modulus of Elasticity given Deflection at Top Due to Concentrated Load

E = (\frac{4 \cdot P}{δ \cdot t}) \cdot ({(\frac{H}{L})}^{3} + 0.75 \cdot (\frac{H}{L}))

Go Wall Thickness given Deflection at Top due to Concentrated Load

t = (\frac{4 \cdot P}{E \cdot δ}) \cdot ({(\frac{H}{L})}^{3} + 0.75 \cdot (\frac{H}{L}))

How to Evaluate Deflection at Top due to Fixed against Rotation?

Deflection at Top due to Fixed against Rotation evaluator uses Deflection of Wall = (Concentrated Load on Wall/(Modulus of Elasticity of Wall Material*Wall Thickness))*((Height of the Wall/Length of Wall)^3+3*(Height of the Wall/Length of Wall)) to evaluate the Deflection of Wall, The Deflection at Top Due to Fixed against Rotation formula is defined as the degree to which a structural element is displaced under a load (due to its deformation). Deflection of Wall is denoted by δ symbol.

How to evaluate Deflection at Top due to Fixed against Rotation using this online evaluator? To use this online evaluator for Deflection at Top due to Fixed against Rotation, enter Concentrated Load on Wall (P), Modulus of Elasticity of Wall Material (E), Wall Thickness (t), Height of the Wall (H) & Length of Wall (L) and hit the calculate button.

FAQs on Deflection at Top due to Fixed against Rotation

What is the formula to find Deflection at Top due to Fixed against Rotation?

The formula of Deflection at Top due to Fixed against Rotation is expressed as Deflection of Wall = (Concentrated Load on Wall/(Modulus of Elasticity of Wall Material*Wall Thickness))*((Height of the Wall/Length of Wall)^3+3*(Height of the Wall/Length of Wall)). Here is an example- 0.130161 = (516510/(20000000*0.4))*((15/25)^3+3*(15/25)).

How to calculate Deflection at Top due to Fixed against Rotation?

With Concentrated Load on Wall (P), Modulus of Elasticity of Wall Material (E), Wall Thickness (t), Height of the Wall (H) & Length of Wall (L) we can find Deflection at Top due to Fixed against Rotation using the formula - Deflection of Wall = (Concentrated Load on Wall/(Modulus of Elasticity of Wall Material*Wall Thickness))*((Height of the Wall/Length of Wall)^3+3*(Height of the Wall/Length of Wall)).

What are the other ways to Calculate Deflection of Wall?

Here are the different ways to Calculate Deflection of Wall-

Deflection of Wall=((1.5*Uniform Lateral Load*Height of the Wall)/(Modulus of Elasticity of Wall Material*Wall Thickness))*((Height of the Wall/Length of Wall)^3+(Height of the Wall/Length of Wall))
Deflection of Wall=((4*Concentrated Load on Wall)/(Modulus of Elasticity of Wall Material*Wall Thickness))*((Height of the Wall/Length of Wall)^3+0.75*(Height of the Wall/Length of Wall))

Can the Deflection at Top due to Fixed against Rotation be negative?

No, the Deflection at Top due to Fixed against Rotation, measured in Length cannot be negative.

Which unit is used to measure Deflection at Top due to Fixed against Rotation?

Deflection at Top due to Fixed against Rotation is usually measured using the Meter[m] for Length. Millimeter[m], Kilometer[m], Decimeter[m] are the few other units in which Deflection at Top due to Fixed against Rotation can be measured.

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Deflection at Top due to Fixed against Rotation Formula

​GoDeflection at Top due to Uniform Load Formula

​GoDeflection at Top due to Concentrated Load Formula

Deflection at Top due to Fixed against Rotation Example

Deflection at Top due to Fixed against Rotation Solution

Deflection at Top due to Fixed against Rotation Formula Elements

Other Formulas to find Deflection of Wall

Other formulas in Load Distribution to Bents and Shear Walls category

How to Evaluate Deflection at Top due to Fixed against Rotation?

FAQs on Deflection at Top due to Fixed against Rotation

Variable Name

GoDeflection at Top due to Uniform Load Formula

GoDeflection at Top due to Concentrated Load Formula