Part 4: Problem-Solving. Solve the following problems. Show all calculations.1. A Standard Penetration Test (SPT) was conducted at a site, and the following blow counts wererecorded:Depth: 2 m, Blow count (N): 10DDDepth: 4 m, Blow count (N): 15Depth: 6 m, Blow count (N): 20The energy ratio is 60%, and the overburden correction factor CN is 1.1. Calculate thecorrected N-values for each depth.2. A soil sample was collected from a depth of 3 m using a Shelby tube. The sample had a volumeof 0.01 m³ and a mass of 18 kg. If the water content is 12%, calculate the (a) bulk density, (b) drydensity, and (c) void ratio of the soil. Assume the specific gravity of soil solids (Gs) is 2.65.3. A Cone Penetration Test (CPT) was conducted at a site, and the following data was obtained:Depth: 2 m, Cone resistance (qc): 5 MPaDepth: 4 m, Cone resistance (qc): 8 MPaDepth: 6 m, Cone resistance (qc): 12 MPaEstimate the soil type at each depth using typical qc correlations.

Answered: Image /qna-images/answer/9fbcbe97-c026-4870-9131-d5728cd33684.jpg

Answered: Part 4: Problem-Solving. Solve the…

Fundamentals of Geotechnical Engineering (MindTap Course List)

5th Edition

ISBN:9781305635180

Author:Braja M. Das, Nagaratnam Sivakugan

Publisher:Braja M. Das, Nagaratnam Sivakugan

Chapter9: Consolidation

Section: Chapter Questions

Problem 9.3P

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Three groups of students from the Geotechnical Engineering class collected soil-aggregate samples for laboratory testing from a recycled aggregate processing plant in Palm Beach County, Florida. Three samples, denoted by Soil A, Soil B, and Soil C, were collected from three locations of the aggregate stockpile, and sieve analyses were conducted (see Figure 2.35). (a) (b) Figure 2.35 (a) Soil-aggregate stockpile; (b) sieve analysis (Courtesy of Khaled Sobhan, Florida Atlantic University, Boca Raton, Florida) a. Determine the coefficient of uniformity and the coefficient of gradation for Soils A, B, and C. b. Which one is coarser: Soil A or Soil C? Justify your answer. c. Although the soils are obtained from the same stockpile, why are the curves so different? (Hint: Comment on particle segregation and representative field sampling.) d. Determine the percentages of gravel, sand and fines according to Unified Soil Classification System.
Since laboratory or field experiments are generally expensive and time consuming, geotechnical engineers often have to rely on empirical relationships to predict design parameters. Section 6.6 presents such relationships for predicting optimum moisture content and maximum dry unit weight. Let us use some of these equations and compare our results with known experimental data. The following table presents the results from laboratory compaction tests conducted on a wide range of fine-grained soils using various compactive efforts (E). Based on the soil data given in the table, determine the optimum moisture content and maximum dry unit weight using the empirical relationships presented in Section 6.6. a. Use the Osman et al. (2008) method [Eqs. (6.15) through (6.18)]. b. Use the Gurtug and Sridharan (2004) method [Eqs. (6.13) and (6.14)]. c. Use the Matteo et al. (2009) method [Eqs. (6.19) and (6.20)]. d. Plot the calculated wopt against the experimental wopt, and the calculated d(max) with the experimental d(max). Draw a 45 line of equality on each plot. e. Comment on the predictive capabilities of various methods. What can you say about the inherent nature of empirical models?

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