Negative Moment Imposed on a Pile Calculator

Category	Engineering ↺
Engineering	Civil ↺
Civil	Piles and Piling ↺
Piles-And-Piling	Laterally Loaded Vertical Piles ↺

✖coefficient Aϑ is the non dimensional constant.ⓘ coefficient Aϑ [A_ϑ]			+10% -10%
✖lateral load is the live load that is applied parallel to the ground.ⓘ lateral load [P_t]			+10% -10%
✖characteristic pile length is the length of pile.ⓘ characteristic pile length [T]			+10% -10%
✖coefficient Bϑ is the non-dimensional constant.ⓘ coefficient Bϑ [B_ϑ]			+10% -10%
✖Theta s is the counterclockwise rotation of pile head.ⓘ Theta s [ϑ_s]			+10% -10%
✖pile stiffness is the measure of stiffness of pile.ⓘ pile stiffness [EI]			+10% -10%

✖negative moment tries to turn the body in a clockwise direction.ⓘ Negative Moment Imposed on a Pile [-M_t]

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Mridul Sharma

Indian Institute of Information Technology (IIIT), Bhopal

Mridul Sharma has created this Calculator and 100+ more calculators!

Rudrani Tidke

Cummins College of Engineering for Women (CCEW), Pune

Rudrani Tidke has verified this Calculator and 50+ more calculators!

< 6 Other formulas that you can solve using the same Inputs

Lateral Deflection of a Pile

lateral deflection=((coefficient Ay*lateral load*(characteristic pile length^3))/pile stiffness)+((coefficient By*moment*(characteristic pile length^2))/pile stiffness) GO

Lateral Deflection for Fixed Head Pile Case

lateral deflection for fixed head=((lateral load*(characteristic pile length)^3)/pile stiffness)*(coefficient Ay-((coefficient Aϑ*coefficient By)/coefficient Bϑ)) GO

Positive Moment Imposed on a Pile

positive moment=(coefficient of lateral load in positive moment*lateral load*characteristic pile length)+(coefficient of moment term in positive moment*moment) GO

Pile Stiffness when Characteristic Pile Length for Laterally Loaded Piles is Given

pile stiffness=((characteristic pile length)^2)*coefficient of horizontal subgrade reaction GO

Characteristic Pile Length for Laterally Loaded Vertical Piles

characteristic pile length=(pile stiffness/coefficient of horizontal subgrade reaction)^0.5 GO

Horizontal Subgrade Reaction Coefficient when Characteristic Pile Length is Given

coefficient of horizontal subgrade reaction=pile stiffness/(characteristic pile length)^2 GO

Negative Moment Imposed on a Pile Formula

negative moment=((coefficient Aϑ*lateral load*characteristic pile length)/coefficient Bϑ)-((Theta s*pile stiffness)/(coefficient Bϑ*characteristic pile length))
-Mt=((Aϑ*Pt*T)/Bϑ)-((ϑs*EI)/(Bϑ*T))

More formulas

Characteristic Pile Length for Laterally Loaded Vertical Piles GO

Pile Stiffness when Characteristic Pile Length for Laterally Loaded Piles is Given GO

Horizontal Subgrade Reaction Coefficient when Characteristic Pile Length is Given GO

Lateral Deflection of a Pile GO

Positive Moment Imposed on a Pile GO

Lateral Deflection for Fixed Head Pile Case GO

What is Negative Moment?

Negative Moment is the moment that produces compression on the bottom side of a beam and tension on the top side.

How to Calculate Negative Moment Imposed on a Pile?

Negative Moment Imposed on a Pile calculator uses negative moment=((coefficient Aϑ*lateral load*characteristic pile length)/coefficient Bϑ)-((Theta s*pile stiffness)/(coefficient Bϑ*characteristic pile length)) to calculate the negative moment, The Negative Moment Imposed on a Pile formula calculates the total negative moment imposed and Negative Moment is the moment that produces compression on the bottom side of a beam and tension on the top side. negative moment and is denoted by -M_t symbol.

How to calculate Negative Moment Imposed on a Pile using this online calculator? To use this online calculator for Negative Moment Imposed on a Pile, enter coefficient Aϑ (A_ϑ), lateral load (P_t), characteristic pile length (T), coefficient Bϑ (B_ϑ), Theta s (ϑ_s) and pile stiffness (EI) and hit the calculate button. Here is how the Negative Moment Imposed on a Pile calculation can be explained with given input values -> -56.29578 = ((1*1*1)/1)-((57.2957795130931*1)/(1*1)).

FAQ

What is Negative Moment Imposed on a Pile?

The Negative Moment Imposed on a Pile formula calculates the total negative moment imposed and Negative Moment is the moment that produces compression on the bottom side of a beam and tension on the top side and is represented as -M_t=((A_ϑ*P_t*T)/B_ϑ)-((ϑ_s*EI)/(B_ϑ*T)) or negative moment=((coefficient Aϑ*lateral load*characteristic pile length)/coefficient Bϑ)-((Theta s*pile stiffness)/(coefficient Bϑ*characteristic pile length)). coefficient Aϑ is the non dimensional constant, lateral load is the live load that is applied parallel to the ground, characteristic pile length is the length of pile, coefficient Bϑ is the non-dimensional constant, Theta s is the counterclockwise rotation of pile head and pile stiffness is the measure of stiffness of pile.

How to calculate Negative Moment Imposed on a Pile?

The Negative Moment Imposed on a Pile formula calculates the total negative moment imposed and Negative Moment is the moment that produces compression on the bottom side of a beam and tension on the top side is calculated using negative moment=((coefficient Aϑ*lateral load*characteristic pile length)/coefficient Bϑ)-((Theta s*pile stiffness)/(coefficient Bϑ*characteristic pile length)). To calculate Negative Moment Imposed on a Pile, you need coefficient Aϑ (A_ϑ), lateral load (P_t), characteristic pile length (T), coefficient Bϑ (B_ϑ), Theta s (ϑ_s) and pile stiffness (EI). With our tool, you need to enter the respective value for coefficient Aϑ, lateral load, characteristic pile length, coefficient Bϑ, Theta s and pile stiffness 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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