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Strain Energy given Applied Tension Load Formula

GoStrain Energy due to Pure Shear Formula

GoStrain Energy due to Torsion in Hollow Shaft Formula

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The Strain Energy is defined as the energy stored in a body due to deformation. Check FAQs

U = W^{2} \cdot \frac{L}{2 \cdot A Base \cdot E}

U - Strain Energy?W - Load?L - Length?A_Base - Area of Base?E - Young's Modulus?

Strain Energy given Applied Tension Load Example

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Here is how the Strain Energy given Applied Tension Load equation looks like with Values.

Here is how the Strain Energy given Applied Tension Load equation looks like with Units.

Here is how the Strain Energy given Applied Tension Load equation looks like.

2.2387 = 452^{2} \cdot \frac{3287.3}{2 \cdot 10 \cdot 15}

2.2387KJ = {452N}^{2} \cdot \frac{3287.3mm}{2 \cdot 10m² \cdot 15N/m}

2.2387 = 452^{2} \cdot \frac{3287.3}{2 \cdot 10 \cdot 15}

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Strain Energy given Applied Tension Load Solution

Follow our step by step solution on how to calculate Strain Energy given Applied Tension Load?

FIRST Step Consider the formula

U = W^{2} \cdot \frac{L}{2 \cdot A Base \cdot E}

Next Step Substitute values of Variables

∴

U = {452N}^{2} \cdot \frac{3287.3mm}{2 \cdot 10m² \cdot 15N/m}

Next Step Convert Units

∴

U = {452N}^{2} \cdot \frac{3.2873m}{2 \cdot 10m² \cdot 15N/m}

Next Step Prepare to Evaluate

∴

U = 452^{2} \cdot \frac{3.2873}{2 \cdot 10 \cdot 15}

Next Step Evaluate

∴

U = 2238.69513066667J

Next Step Convert to Output's Unit

∴

U = 2.23869513066667KJ

LAST Step Rounding Answer

∴

U = 2.2387KJ

Strain Energy given Applied Tension Load Formula Elements

Variables

Strain Energy

The Strain Energy is defined as the energy stored in a body due to deformation.

Symbol: U

Measurement: EnergyUnit: KJ

Note: Value should be greater than 0.

Formulas to find Strain Energy

Load

Load is the instantaneous load applied perpendicular to the specimen cross section.

Symbol: W

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Load

Length

Length is the measurement or extent of something from end to end.

Symbol: L

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Length

Area of Base

Area of Base is the total area of footing.

Symbol: A_Base

Measurement: AreaUnit: m²

Note: Value should be greater than 0.

Formulas to find Area of Base

Young's Modulus

Young's Modulus is a mechanical property of linear elastic solid substances. It describes the relationship between longitudinal stress and longitudinal strain.

Symbol: E

Measurement: Stiffness ConstantUnit: N/m

Note: Value should be greater than 0.

Formulas to find Young's Modulus

Other Formulas to find Strain Energy

Go Strain Energy due to Pure Shear

U = 𝜏 \cdot 𝜏 \cdot \frac{V T}{2 \cdot G pa}

Go Strain Energy due to Torsion in Hollow Shaft

U = 𝜏^{2} \cdot ({d outer}^{2} + {d inner}^{2}) \cdot \frac{V}{4 \cdot G pa \cdot {d outer}^{2}}

Go Strain Energy given Moment Value

U = \frac{M b \cdot M b \cdot L}{2 \cdot e \cdot I}

Go Strain Energy given Torsion Moment Value

U = \frac{T \cdot L}{2 \cdot G pa \cdot J}

Other formulas in Strain Energy category

Go Strain Energy Density

S d = 0.5 \cdot σ \cdot ε

How to Evaluate Strain Energy given Applied Tension Load?

Strain Energy given Applied Tension Load evaluator uses Strain Energy = Load^2*Length/(2*Area of Base*Young's Modulus) to evaluate the Strain Energy, Strain Energy given Applied Tension Load is half the ratio of product of length and tension load square to the product of area of member and young's modulus. Strain Energy is denoted by U symbol.

How to evaluate Strain Energy given Applied Tension Load using this online evaluator? To use this online evaluator for Strain Energy given Applied Tension Load, enter Load (W), Length (L), Area of Base (A_Base) & Young's Modulus (E) and hit the calculate button.

FAQs on Strain Energy given Applied Tension Load

What is the formula to find Strain Energy given Applied Tension Load?

The formula of Strain Energy given Applied Tension Load is expressed as Strain Energy = Load^2*Length/(2*Area of Base*Young's Modulus). Here is an example- 1.4E-5 = 452^2*3.2873/(2*10*15).

How to calculate Strain Energy given Applied Tension Load?

With Load (W), Length (L), Area of Base (A_Base) & Young's Modulus (E) we can find Strain Energy given Applied Tension Load using the formula - Strain Energy = Load^2*Length/(2*Area of Base*Young's Modulus).

What are the other ways to Calculate Strain Energy?

Here are the different ways to Calculate Strain Energy-

Strain Energy=Shear Stress*Shear Stress*Volume/(2*Shear Modulus)
Strain Energy=Shear Stress^(2)*(Outer Diameter of Shaft^(2)+Inner Diameter of Shaft^(2))*Volume of Shaft/(4*Shear Modulus*Outer Diameter of Shaft^(2))
Strain Energy=(Bending Moment*Bending Moment*Length)/(2*Elastic Modulus*Moment of Inertia)

Can the Strain Energy given Applied Tension Load be negative?

No, the Strain Energy given Applied Tension Load, measured in Energy cannot be negative.

Which unit is used to measure Strain Energy given Applied Tension Load?

Strain Energy given Applied Tension Load is usually measured using the Kilojoule[KJ] for Energy. Joule[KJ], Gigajoule[KJ], Megajoule[KJ] are the few other units in which Strain Energy given Applied Tension Load can be measured.

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Strain Energy given Applied Tension Load Formula

​GoStrain Energy due to Pure Shear Formula

​GoStrain Energy due to Torsion in Hollow Shaft Formula

Strain Energy given Applied Tension Load Example

Strain Energy given Applied Tension Load Solution

Strain Energy given Applied Tension Load Formula Elements

Other Formulas to find Strain Energy

Other formulas in Strain Energy category

How to Evaluate Strain Energy given Applied Tension Load?

FAQs on Strain Energy given Applied Tension Load

Variable Name

GoStrain Energy due to Pure Shear Formula

GoStrain Energy due to Torsion in Hollow Shaft Formula