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Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Formula

GoAngle of Internal Friction given Bearing Capacity Factors Formula

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Angle of Internal Friction is the angle measured between the normal force and resultant force . Check FAQs

φ = \frac{Φ p}{1.1 - 0.1 \cdot (\frac{B}{L})}

φ - Angle of Internal Friction?Φ_p - Angle of Internal Friction For Plain Strain?B - Width of Footing?L - Length of Footing?

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Example

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Here is how the Triaxial Angle of Shearing Resistance by Meyerhof's Analysis equation looks like with Values.

Here is how the Triaxial Angle of Shearing Resistance by Meyerhof's Analysis equation looks like with Units.

Here is how the Triaxial Angle of Shearing Resistance by Meyerhof's Analysis equation looks like.

28.5714 = \frac{30}{1.1 - 0.1 \cdot (\frac{2}{4})}

28.5714° = \frac{30°}{1.1 - 0.1 \cdot (\frac{2m}{4m})}

28.5714 = \frac{30}{1.1 - 0.1 \cdot (\frac{2}{4})}

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Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Solution

Follow our step by step solution on how to calculate Triaxial Angle of Shearing Resistance by Meyerhof's Analysis?

FIRST Step Consider the formula

φ = \frac{Φ p}{1.1 - 0.1 \cdot (\frac{B}{L})}

Next Step Substitute values of Variables

∴

φ = \frac{30°}{1.1 - 0.1 \cdot (\frac{2m}{4m})}

Next Step Convert Units

∴

φ = \frac{0.5236rad}{1.1 - 0.1 \cdot (\frac{2m}{4m})}

Next Step Prepare to Evaluate

∴

φ = \frac{0.5236}{1.1 - 0.1 \cdot (\frac{2}{4})}

Next Step Evaluate

∴

φ = 0.498665500569714rad

Next Step Convert to Output's Unit

∴

φ = 28.5714285714286°

LAST Step Rounding Answer

∴

φ = 28.5714°

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Formula Elements

Variables

Angle of Internal Friction

Angle of Internal Friction is the angle measured between the normal force and resultant force .

Symbol: φ

Measurement: AngleUnit: °

Note: Value should be greater than 0.

Formulas to find Angle of Internal Friction

Angle of Internal Friction For Plain Strain

Angle of Internal Friction For Plain Strain means angle of internal friction dependent on plain strain.

Symbol: Φ_p

Measurement: AngleUnit: °

Note: Value should be greater than 0.

Formulas to find Angle of Internal Friction For Plain Strain

Width of Footing

Width of Footing is the shorter dimension of the footing.

Symbol: B

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Width of Footing

Length of Footing

Length of Footing is the length of the larger dimension of the footing.

Symbol: L

Measurement: LengthUnit: m

Note: Value can be positive or negative.

Formulas to find Length of Footing

Other Formulas to find Angle of Internal Friction

Go Angle of Internal Friction given Bearing Capacity Factors

φ = a \frac{\tan (\frac{N γ}{N q - 1})}{1.4}

Other formulas in Bearing Capacity of Soils by Meyerhof's Analysis category

Go Plane Strain Angle of Shearing Resistance by Meyerhof's Analysis

Φ p = (1.1 - 0.1 \cdot (\frac{B}{L})) \cdot φ

Go Width of Footing given Angle of Shearing Resistance by Meyerhof's Analysis

B = (1.1 - (\frac{Φ p}{φ})) \cdot (\frac{L}{0.1})

Go Length of Footing given Angle of Shearing Resistance by Meyerhof's Analysis

L = \frac{0.1 \cdot B}{1.1 - (\frac{Φ p}{φ})}

Go Bearing Capacity Factor Dependent on Surcharge given Angle of Internal Friction

N q = (\exp (π \cdot \tan (\frac{φ \cdot π}{180}))) \cdot {(\tan (\frac{(45 + (\frac{φ}{2})) \cdot π}{180}))}^{2}

How to Evaluate Triaxial Angle of Shearing Resistance by Meyerhof's Analysis?

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis evaluator uses Angle of Internal Friction = Angle of Internal Friction For Plain Strain/(1.1-0.1*(Width of Footing/Length of Footing)) to evaluate the Angle of Internal Friction, The Triaxial Angle of Shearing Resistance by Meyerhof's Analysis is defined as the value of angle of internal friction dependent on triaxial strain when we have prior information of other parameters used. Angle of Internal Friction is denoted by φ symbol.

How to evaluate Triaxial Angle of Shearing Resistance by Meyerhof's Analysis using this online evaluator? To use this online evaluator for Triaxial Angle of Shearing Resistance by Meyerhof's Analysis, enter Angle of Internal Friction For Plain Strain (Φ_p), Width of Footing (B) & Length of Footing (L) and hit the calculate button.

FAQs on Triaxial Angle of Shearing Resistance by Meyerhof's Analysis

What is the formula to find Triaxial Angle of Shearing Resistance by Meyerhof's Analysis?

The formula of Triaxial Angle of Shearing Resistance by Meyerhof's Analysis is expressed as Angle of Internal Friction = Angle of Internal Friction For Plain Strain/(1.1-0.1*(Width of Footing/Length of Footing)). Here is an example- 1637.022 = 0.5235987755982/(1.1-0.1*(2/4)).

How to calculate Triaxial Angle of Shearing Resistance by Meyerhof's Analysis?

With Angle of Internal Friction For Plain Strain (Φ_p), Width of Footing (B) & Length of Footing (L) we can find Triaxial Angle of Shearing Resistance by Meyerhof's Analysis using the formula - Angle of Internal Friction = Angle of Internal Friction For Plain Strain/(1.1-0.1*(Width of Footing/Length of Footing)).

What are the other ways to Calculate Angle of Internal Friction?

Here are the different ways to Calculate Angle of Internal Friction-

Angle of Internal Friction=atan(Bearing Capacity Factor dependent on Unit Weight/(Bearing Capacity Factor dependent on Surcharge-1))/1.4

Can the Triaxial Angle of Shearing Resistance by Meyerhof's Analysis be negative?

No, the Triaxial Angle of Shearing Resistance by Meyerhof's Analysis, measured in Angle cannot be negative.

Which unit is used to measure Triaxial Angle of Shearing Resistance by Meyerhof's Analysis?

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis is usually measured using the Degree[°] for Angle. Radian[°], Minute[°], Second[°] are the few other units in which Triaxial Angle of Shearing Resistance by Meyerhof's Analysis can be measured.

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Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Formula

​GoAngle of Internal Friction given Bearing Capacity Factors Formula

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Example

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Solution

Triaxial Angle of Shearing Resistance by Meyerhof's Analysis Formula Elements

Other Formulas to find Angle of Internal Friction

Other formulas in Bearing Capacity of Soils by Meyerhof's Analysis category

How to Evaluate Triaxial Angle of Shearing Resistance by Meyerhof's Analysis?

FAQs on Triaxial Angle of Shearing Resistance by Meyerhof's Analysis

Variable Name

GoAngle of Internal Friction given Bearing Capacity Factors Formula