The wooden pile shown in the figure has a diameter of 105 mm and is subjected to a load of P = 70 kN. Along the length of the pile andaround its perimeter, soil supplies a constant frictional resistance of w = 3.85 kN/m. The length of the pile is L = 4.0 m and its elasticmodulus is E= 12.9 GPa.Calculate(a) the force Fg needed at the base of the pile for equilibrium.(b) the magnitude of the downward displacement at A relative to B.yLAnswers:(a) FB =(b) UA=iiBFBKNmm

Answered: Image /qna-images/answer/e5198e52-b1e6-4de4-bdc1-808cbbc00bd5.jpg

Answered: The wooden pile shown in the figure has…

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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Consider a 20 m long concrete pile with a cross-section of 0.407m x 0.407m fully embedded in sand. For the sand, given: unit weight, X = 18 kN/m³; and soil friction angle, += 35°. Using Meyerhof's method. Determine the ultimate point bearing Qp Consider a concrete pile in sand with a diameter equals to 0.407. The pile is 20 m long. Use K = 1.3 and '= 35, 8' = 0.8', X = 18 kN/m³. Compute the frictional resistance Q Consider the figure and the table below. Find the skin resistance Q, by the a method Depth AL Saturated clay Cab 25 kN/m² (m) (m) (kN/m²) (Table 12.11) Y=16 kN/m Groundwater 0-3 table F421 40 kN/m 7m Clay 3-10 Yeat 17 kN/m 10-20 3710 25 0.87 40 0.74 90 0.51 10m Clay 90 KN/m Y 18 kN/m Diameter = 457 mm
A pile of diameter 250 mm is installed in a soil strata with a recently filled layer of clay of 3 m depth. The unit cohesion of the material is 18 kN/m² and unit weight of soil is 15 kN/m². The negative skin friction on the pile is equal to. (assume adhesion factor = 0.4)

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