Mridul Sharma
Indian Institute of Information Technology (IIIT), Bhopal
Mridul Sharma has created this Calculator and 100+ more calculators!
Alithea Fernandes
Don Bosco College of Engineering (DBCE), Goa
Alithea Fernandes has verified this Calculator and 100+ more calculators!

10 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
Negative Moment Imposed on a Pile
negative moment=((coefficient Aϑ*lateral load*characteristic pile length)/coefficient Bϑ)-((Theta s*pile stiffness)/(coefficient Bϑ*characteristic pile length)) 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
Horizontal Subgrade Reaction Coefficient when Characteristic Pile Length is Given
coefficient of horizontal subgrade reaction=pile stiffness/(characteristic pile length)^2 GO
Longitudinal Reinforcement Area when Axial Load for Spiral Columns is Given
Total area=moment/(0.12*Yield strength of reinforcing steel*Diameter ) GO
Reinforcement Yield Strength when Axial Load for Spiral Columns is Given
Yield strength of reinforcing steel=moment/(0.12*Total area*Diameter ) GO
Circle Diameter when Axial Load for Spiral Columns is Given
Diameter =moment/(0.12*Total area*Yield strength of reinforcing steel) GO
Stress in Steel
Stress=moment/(Tensile Reinforcement Area*Ratio j*Depth of the Beam) GO
Moment coefficient
moment coefficient=moment/(Dynamic Pressure*Area*Chord Length) GO

Positive Moment Imposed on a Pile Formula

positive moment=(coefficient of lateral load in positive moment*lateral load*characteristic pile length)+(coefficient of moment term in positive moment*moment)
M=(A<sub>m</sub>*P<sub>t</sub>*T)+(B<sub>m</sub>*M<sub>t</sub>)
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
Negative Moment Imposed on a Pile GO
Lateral Deflection for Fixed Head Pile Case GO

What is positive moment?

Positive moment is the reaction induced in a structural element when an external force or moment is applied to the element, causing the element to bend in a counter-clockwise direction.

How to Calculate Positive Moment Imposed on a Pile?

Positive Moment Imposed on a Pile calculator uses positive moment=(coefficient of lateral load in positive moment*lateral load*characteristic pile length)+(coefficient of moment term in positive moment*moment) to calculate the positive moment, The Positive Moment Imposed on a Pile formula calculates the total positive bending moment which is equal to the sum of the pile reaction times its distance to the column face. positive moment and is denoted by M symbol.

How to calculate Positive Moment Imposed on a Pile using this online calculator? To use this online calculator for Positive Moment Imposed on a Pile, enter coefficient of lateral load in positive moment (Am), lateral load (Pt), characteristic pile length (T), coefficient of moment term in positive moment (Bm) and moment (Mt) and hit the calculate button. Here is how the Positive Moment Imposed on a Pile calculation can be explained with given input values -> 2 = (1*1*1)+(1*1).

FAQ

What is Positive Moment Imposed on a Pile?
The Positive Moment Imposed on a Pile formula calculates the total positive bending moment which is equal to the sum of the pile reaction times its distance to the column face and is represented as M=(Am*Pt*T)+(Bm*Mt) or positive moment=(coefficient of lateral load in positive moment*lateral load*characteristic pile length)+(coefficient of moment term in positive moment*moment). coefficient of lateral load in positive moment is the non-dimensional coefficient of lateral load term, lateral load is the live load that is applied parallel to the ground, characteristic pile length is the length of pile, coefficient of moment term in positive moment is the non-dimensional coefficient of lateral load term. and moment is an overturning effect (tends to bend or turn the member) created by the force(load) acting on a structural member.
How to calculate Positive Moment Imposed on a Pile?
The Positive Moment Imposed on a Pile formula calculates the total positive bending moment which is equal to the sum of the pile reaction times its distance to the column face is calculated using positive moment=(coefficient of lateral load in positive moment*lateral load*characteristic pile length)+(coefficient of moment term in positive moment*moment). To calculate Positive Moment Imposed on a Pile, you need coefficient of lateral load in positive moment (Am), lateral load (Pt), characteristic pile length (T), coefficient of moment term in positive moment (Bm) and moment (Mt). With our tool, you need to enter the respective value for coefficient of lateral load in positive moment, lateral load, characteristic pile length, coefficient of moment term in positive moment and moment 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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