Alithea Fernandes
Don Bosco College of Engineering (DBCE), Goa
Alithea Fernandes has created this Calculator and 100+ more calculators!
Rudrani Tidke
Cummins College of Engineering for Women (CCEW), Pune
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11 Other formulas that you can solve using the same Inputs

Gross Cross-Sectional Area of Column when Total Allowable Axial Load is Given
Gross area of column=Allowable Load/(0.25*Compressive strength+Allowable stress in vertical reinforcement*Area ratio of cross sectional area to gross area) GO
Allowable Load when Safety Factors are Given
Allowable Load=(Shaft Resistance/Factor of Safety F1)+(Toe Resistance/Factor of Safety F2) GO
Critical Slenderness Ratio for Aluminium Columns
Slenderness Ratio=sqrt(51000000/(Allowable Load/Cross sectional area)) GO
Critical Slenderness Ratio for Cast Iron Columns
Slenderness Ratio=(12000-(Allowable Load/Cross sectional area))/60 GO
Allowable Load when Safety Factor is Given
Allowable Load=(Shaft Resistance+Toe Resistance)/Factor of Safety GO
Toe Resistance when Allowable Load and Safety Factor is Given
Toe Resistance=Allowable Load*Factor of Safety-Shaft Resistance GO
Smallest Moment of Inertia Allowable at Worst Section for Wrought Iron
Area Moment Of Inertia=Allowable Load*(Length of column^2) GO
Smallest Moment of Inertia Allowable at Worst Section for Medium Carbon Steel
Moment of Inertia=Allowable Load*(Length of column^2) GO
Smallest Moment of Inertia Allowable at Worst Section for Low Carbon Steel
Moment of Inertia=Allowable Load*(Length of column^2) GO
Smallest Moment of Inertia Allowable at Worst Section for Cast Iron
Moment of Inertia=Allowable Load*(Length of column^2) GO
Pile Capacity
Pile Capacity=Shaft Resistance+Toe Resistance GO

Shaft Resistance when Allowable Load and Safety Factor is Given Formula

Shaft Resistance=Factor of Safety*Allowable Load-Toe Resistance
Q <sub>su</sub>=F*Q <sub>a</sub>-Q <sub>bu</sub>
More formulas
Allowable Load when Safety Factor is Given GO
Allowable Load when Safety Factors are Given GO
Pile Capacity GO
Toe Resistance when Allowable Load and Safety Factor is Given GO

What is Allowable Load?

Allowable load is the maximum working load that can be applied on the pile without the fear of failure.

How to Calculate Shaft Resistance when Allowable Load and Safety Factor is Given?

Shaft Resistance when Allowable Load and Safety Factor is Given calculator uses Shaft Resistance=Factor of Safety*Allowable Load-Toe Resistance to calculate the Shaft Resistance, The Shaft Resistance when Allowable Load and Safety Factor is Given formula is defined as the load resisted by the pile's shaft. Shaft Resistance and is denoted by Q su symbol.

How to calculate Shaft Resistance when Allowable Load and Safety Factor is Given using this online calculator? To use this online calculator for Shaft Resistance when Allowable Load and Safety Factor is Given, enter Factor of Safety (F), Allowable Load (Q a) and Toe Resistance (Q bu) and hit the calculate button. Here is how the Shaft Resistance when Allowable Load and Safety Factor is Given calculation can be explained with given input values -> 0 = 1*10000-10000.

FAQ

What is Shaft Resistance when Allowable Load and Safety Factor is Given?
The Shaft Resistance when Allowable Load and Safety Factor is Given formula is defined as the load resisted by the pile's shaft and is represented as Q su=F*Q a-Q bu or Shaft Resistance=Factor of Safety*Allowable Load-Toe Resistance. Factor of Safety expresses how much stronger a system is than it needs to be for an intended load, Allowable load is the maximum working load that can be applied on the structure and Toe Resistance is the load resisted by the toe of a pile.
How to calculate Shaft Resistance when Allowable Load and Safety Factor is Given?
The Shaft Resistance when Allowable Load and Safety Factor is Given formula is defined as the load resisted by the pile's shaft is calculated using Shaft Resistance=Factor of Safety*Allowable Load-Toe Resistance. To calculate Shaft Resistance when Allowable Load and Safety Factor is Given, you need Factor of Safety (F), Allowable Load (Q a) and Toe Resistance (Q bu). With our tool, you need to enter the respective value for Factor of Safety, Allowable Load and Toe Resistance 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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