ease round to the nearest Hundredth (i.e., 0.01). No Comma! ircular pile, 20 m long is driven into a homogeneous sand layer. The pile's width (diameter) is 0.5 m. The standard hetration resistance near the vicinity of the pile is 16. Calculate the allowable bearing force (Qa) of the pile. Use FS = 3 d Briaud & Tucker method. Hint: Qa = Qu / FS %3D

ease round to the nearest Hundredth (i.e., 0.01). No Comma! ircular pile, 20 m long is driven into a homogeneous sand layer. The pile's width (diameter) is 0.5 m. The standard hetration resistance near the vicinity of the pile is 16. Calculate the allowable bearing force (Qa) of the pile. Use FS = 3 d Briaud & Tucker method. Hint: Qa = Qu / FS %3D

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Braced cuts

The braced cut is a method of providing lateral support to the soil in foundation trenches, to prevent the trenches from deformation by the caving in of soil and resisting it from moving laterally. During shallow excavation in firm soil, generally, slopes are provided to resist the caving in of soil. During shallow excavation in soft soil and deep excavation, the chances of caving in of soil increase. Hence, it becomes necessary to make a provision to resist the deformation of trenches due to caving in of soil. The braced cut is the method used for such conditions. The excavation using braced cuts is a bit uneconomical as compared to the traditional open-cut excavation method but provides better safety than the cut excavation method.

Question

**Problem Statement:**

Please round to the nearest Hundredth (i.e., 0.01). No Comma!

A circular pile, 20 m long, is driven into a homogeneous sand layer. The pile's width (diameter) is 0.5 m. The standard penetration resistance near the vicinity of the pile is 16. Calculate the allowable bearing force (Qa) of the pile. Use FS = 3 and Briaud & Tucker method. Hint: Qa = Qu / FS

Qa = [_____] kN

**Instructions:**

- Ensure the answer is rounded to the nearest hundredth.
- Enter the calculated value in the provided space.

**Note:**

- FS stands for Factor of Safety, given as 3.
- Use the specified method for calculations.

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