Given the laboratory results of the Atterberg Limit Test: LIQUID LIMIT TEST NO.- 1 2 3 4 No. of Blows 38 29 20 14 Mass of Wet Soil + Container, g 22.47 21.29 21.27 26.12 Mass of Dry Soil + Container, g 19.44 18.78 18.75 22.10 Mass of Container, g 12.74 13.24 13.20 13.27 PLASTIC LIMIT NATURAL WATER CONTENT TEST NO.→ 1 2 TEST NO.- 1 2 Mass of Wet Soil + Container, g 23.20 22.80 Mass of Wet Soil + Container, g 17.53 16.97 Mass of Dry Soil + Container, g 20.42 20.19 Mass of Dry Soil + Container, g 14.84 14.36 Mass of Container, g 12.90 12.95 Mass of Container, g 9.50 9.55 1. Determine the nearest value to the Liquid Limit of the Soil. 2. Determine the nearest value to the Plastic Limit of the Soil. 3. Determine the nearest value to the Liquidity Index of the Soil. 4. Determine the nearest value to the Consistency Index of the Soil.

Given the laboratory results of the Atterberg Limit Test: LIQUID LIMIT TEST NO.- 1 2 3 4 No. of Blows 38 29 20 14 Mass of Wet Soil + Container, g 22.47 21.29 21.27 26.12 Mass of Dry Soil + Container, g 19.44 18.78 18.75 22.10 Mass of Container, g 12.74 13.24 13.20 13.27 PLASTIC LIMIT NATURAL WATER CONTENT TEST NO.→ 1 2 TEST NO.- 1 2 Mass of Wet Soil + Container, g 23.20 22.80 Mass of Wet Soil + Container, g 17.53 16.97 Mass of Dry Soil + Container, g 20.42 20.19 Mass of Dry Soil + Container, g 14.84 14.36 Mass of Container, g 12.90 12.95 Mass of Container, g 9.50 9.55 1. Determine the nearest value to the Liquid Limit of the Soil. 2. Determine the nearest value to the Plastic Limit of the Soil. 3. Determine the nearest value to the Liquidity Index of the Soil. 4. Determine the nearest value to the Consistency Index of the Soil.

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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Given the tabulated data for an Atterberg Limit Test. A. LIQUID LIMIT Test Number No. of blows Weight of Wet soil + container 22.24g 21.19g Weight of Dry soil + container 20.10g| 19.28g Weight of Container 1. 2 39 30 12.74g 13.24g . Test Number No, of blows Weight of Wet soil + container 21.27g 26.12g Weight of Dry soil + container 19.25g 22.60g Weight of Container 3 4 23 12 2/2 13.06g 13.27g B. PLASTIC LIMIT Test Number 2 Weight of Wet soil + container 22.12g 21.84g1 Weight of Dry soil + container 20.42g 20.19g Weight of Container 13.07g 13.18g C. NATURAL WATER CONTENT Test Number 1 2 Weight of Wet soil + container 17.53g 16.97g Weight of Dry soil + container 14.84g| 14.36g Weight of container 7.84g 7.50g a. Compute the liquid limit. b. Compute the plastic limit. c. Compute the natural water content. d. Compute the plasticity index. e. Compute the liquidity index
Subj- civil Q. An undisturbed soil sample that is cylindrical in shape and measures 3 in (76.2 mm) in diameter by 6 in (152.4 mm) in length after oven drying weighs 2.57 lb (1.166 kg bulk) as opposed to 3.04 lb (1.38 kg mass). What are the densities and the weights in (a) wet and dry units? Additionally, find out the moisture content.
PROBLEM 3: The following data were obtained from a field density test on a compacted fill of sandy clay. Laboratory moisture density test on the fill material indicated a maximum dry density of 120 pcf at an optimum water content of 11 percent. weight of moist soil removed from the test hole weight of soil after oven drying - 914 g Volume of test hole from rubber 1038 g balloon apparatus ------- 0.0169 cu. ft. What is the percent compaction of the fill? a. 89.1 % C. 86.4 % b. 99.1 % d. 88.7 %
10:58 Refer to the soil in Problem 4.1. www.bartleby.com = bartleby a D Q&A Sign in Engineering / Civil Engineeri. / P./ Refer to the so.. : Refer to the soil in Problem 4.1... Textbook Problem Refer to the soil in Problem 4.1. a. Determine the flow index. b. Determine the liquidity index of the soil if the in situ moisture content is 21%. 4.1 During Atterberg limit tests in the soil mechanics laboratory, the students obtained the following results from a clayey soil. Liquid limit tests: Number of Moisture blows, N content (%) 14 38.4 16 36.5 20 33.1 28 270 Plastic limit tests: Students conducted two trials and found that PL = 17.2% for the first trial and PL = 17.8% for the second trial. a. Draw the flow curve and obtain the liquid limit. b. What is the plasticity index of the soil? Use an average value of PL from the two plastic limit trails.
and horfor fest ⇒ has yielded Q1A\ A standard proctor test has yielded the values shown in the table below, the volume is 1130 ft and the moisture range for 93% of maximum dry unite weight. Water Content (%) 8.24 10.20 12.30 Weight (lb) 3.26 4.15 4.67 Determine: 1. Maximum dry unit weight 2. Optimum water content 14.60 4.02 16.80 3.36
5 Problem: For a given inorganic soil, the following are known: Percentage passing No. 4 Sieve... 100 Percentage passing No. 200 sieve.. 77 Liquid limit Plasticity index.... ...... 63 25 70 CH or CL U-b RI40.73(L-20) MH -line OL PIOLL- CL-ML OF ML OH or OL 10 16 20 30 40 50 60 70 80 90 100 Liquid limit Classify the soil by using Unified Sqil Classification System. a) What type of soil is this? b) What is the group symbol of the soil C) What is the group name of the soil?
the following data have been obtained in a standard laboratory proctor compaction test : Trial No. moisture content. % 1 9 2 3 4 6 11.9 14.6 15-8 19.0 21.6 weight of container and compacted soil 137.43 38.16 38-67 38-8439-06 38.76 (N) The container is 943 cm³ ih volume and its weight is 201 A-Determine the optimum moisture content and the maximum dry unit weight B-what is the dry uhit weight and water content at 95% standard compaction in the field ?
Classify the soil sample using AASHTO Classification System. Passing No. 10 = 89 % Passing No. 40 = 64 % Passing No. 200 = 48 % Plasticity for the minus No. 40 fraction: Liquid Limit = 36 % Plastic Limit = 27 % O GI = 2.0 O A-6 (2) O A-5 (0) O A-4 (2) O A-7-5 (0) O GI = 1.0 O GI = 0
A standard Proctor Test has yielded the values shown below. Determine: (a) The maximum dry unit weight and its OMC at Volume of 1/30 cubic ft. (b) The moisture for 93% of maximum dry unit weight. range STANDARD PROCTOR TEST RESULTS TRIAL WEIGHT OF SOIL (Ibs.) MOISTURE (%) |8.24 3.26 4.15 1 10.20 4.67 12.30 4. 4.02 14.60 3.36 16.80 23
Type 11/111 sedimentation analysis: A laboratory settling test was performed on a suspension exhibiting flocculent settling characteristics with the results given in the following table. The initial TSS concentration of the suspension was 400 mg/L. Time, min 20 30 TSS concentration at indicated depth 0.5 m 1.0 m 1.5 m 2.0 m 156 286 340 390 116 148 180 310 112 148 156 40 76 108 132 23 80 104 56 80 19 32 56 2.5 m 405 375 172 148 40 76 40 50 60 70 80 17 29 128 100 76 Estimate the removal efficiency for a sedimentation basin 3.5 m deep with an overflow rate, V. = 4.2 m/h (State all assumptions and show your work).
Problem A liquid limit test conducted on a soil sample in the cup device gave the following results: N 10 19 23 27 40 w (%) 60.0 45.3 39.8 36.5 25.2 The plastic limit test and natural water content. Plastic Limit Natural Water Content Test Test No. Weight of Container + Lid (g) 2 1 2 13.07 13.18 7.84 7.5 Weight of Container + Lid + Wet Soil (g) 22.12 21.84 17.53 16.97 Weight of Container + Lid + Dry Soil (g) 20.59 20.35 15.45 14.93 The shrinkage limit test. Weight of Dish with petroleum jelly (g) Weight of Dish with petroleum jelly+ Wet Soil (g) Weight of Dish with petroleum jely + Dry Soil (g) Volume of Shrinkage Dish (cm³) Volume of Oven-Dried Soil Pat (cm?) 11.3 38.51 32.81 15.26 12.83 8. Determine the liquid limit. b. 39% 9. Determine the plastic limit. a. 38% C. 37% d. 40% b. 21.20% 10. Determine the shrinkage limit. 20.55% C. 21.85% d. 20.20% a. a. 15.20% b. 22.40% C. 18.59% d. 16.45%
1. The following data shows the results of the liquid limit and plastic limit test using Casagrande cup method. Calculate the following: (Hint: Solve the moisture content of each test) a. Liquid Limit b. Plasticity Index c. Liquidity Index Liquid Limit Test: TEST NO. No. of Blows Wt. of Wet Soil + Container Wt. of Dry Soil + Container Wt. of Container Plastic Limit Test: TEST NO. Wt. of Wet Soil + Container Wt. of Dry Soil + Container Wt. of Container Natural Water Content: TEST NO. Wt. of Wet Soil + Container Wt. of Dry Soil + Container Wt. of Container 1 35 22.46 g 19.44 g 12.76 g 1 22.10 g 20.42 g 13.07 g 1 17.94 g 14.84 g 7.84 g 2 21 21.33 g 18.75 g 13.06 g 2 21.77 g 20.19 g 13.28 g 2 17.39 g 14.36 g 7.50 g 3 16 21.29 g 18.78 g 13.26 g