Concept explainers
Find the classification of the given soil using unified soil classification system and give the group symbols and group names.
Answer to Problem 5.9P
The classification of soil 1 using unified soil classification system is
The group symbol of the soil 1 is
The classification of soil 2 using unified soil classification system is
The group symbol of the soil 2 is
The classification of soil 3 using unified soil classification system is
The group symbol of the soil 3 is
The classification of soil 4 using unified soil classification system is
The group symbol of the soil 4 is
The classification of soil 5 using unified soil classification system is
The group symbol of the soil 5 is
The classification of soil 6 using unified soil classification system is
The group symbol of the soil 6 is
The classification of soil 7 using unified soil classification system is
The group symbol of the soil 7 is
The classification of soil 8 using unified soil classification system is
The group symbol of the soil 8 is
The classification of soil 9 using unified soil classification system is
The group symbol of the soil 9 is
The classification of soil 10 using unified soil classification system is
The group symbol of the soil 10 is
The classification of soil 11 using unified soil classification system is
The group symbol of the soil 11 is
The classification of soil 12 using unified soil classification system is
The group symbol of the soil 12 is
Explanation of Solution
Calculation:
For soil 1:
The plasticity index (PI) is 21.
Determine the coarse fraction.
Substitute 30 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction.
Substitute 70 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 70 % for percent of coarse fraction 30 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
The gravel fraction
Refer Figure 5.4 “Flowchart group names for gravelly and sandy soil” in the text book.
Take the group name as clayey sand with gravel for the group of SC and gravel fraction of
Thus, the classification of soil 1 using unified soil classification system is
For soil 2:
The plasticity index (PI) is 22.
Determine the coarse fraction as shown below.
Substitute 20 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 48 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 80 % for percent of coarse fraction 52 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
The sand fraction
Refer Figure 5.4 “Flowchart group names for gravelly and sandy soil” in the text book.
Take the group name as clayey gravel with sand for the group of GC and sand fraction of
Thus, the classification of soil 2 using unified soil classification system is
For soil 3:
The plasticity index (PI) is 28.
Determine the coarse fraction as shown below.
Substitute 70 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 95 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 30 % for percent of coarse fraction 5 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” in the text book.
The soil is a fine-grained soil.
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.5 “Flowchart group names for inorganic silty and clayey soil” in the text book.
Take the group name as sandy fat clay for the group of CH,
Thus, the classification of soil 3 using unified soil classification system is
For soil 4:
The plasticity index (PI) is 19.
Determine the coarse fraction as shown below.
Substitute 82 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 100 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 18 % for percent of coarse fraction 0 for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” in the text book.
The soil is a fine-grained soil.
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.5 “Flowchart group names for inorganic silty and clayey soil” in the text book.
Take the group name as lean clay with sand for the group of CL.
Thus, the classification of soil 4 using unified soil classification system is
For soil 5:
The plasticity index (PI) is 21.
Determine the coarse fraction as shown below.
Substitute 74 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 100 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 26 % for percent of coarse fraction 0 for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” in the text book.
The soil is a fine-grained soil.
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.5 “Flowchart group names for inorganic silty and clayey soil” in the text book.
Take the group name as lean clay with sand for the group of CL.
Thus, the classification of soil 5 using unified soil classification system is
For soil 6:
The plasticity index (PI) is 18.
Determine the coarse fraction as shown below.
Substitute 26 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 87 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 74 % for percent of coarse fraction 13 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
The gravel fraction
Refer Figure 5.4 “Flowchart group names for gravelly and sandy soil” in the text book.
Take the group name as clayey sand for the group of GC and sand fraction of
Thus, the classification of soil 6 using unified soil classification system is
For soil 7:
The plasticity index (PI) is 38.
Determine the coarse fraction.
Substitute 78 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction.
Substitute 88 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 22 % for percent of coarse fraction 12 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” in the text book.
The soil is a fine-grained soil.
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.5 “Flowchart group names for inorganic silty and clayey soil” in the text book.
Take the group name as fat clay with gravel for the group of CH,
Thus, the classification of soil 7 using unified soil classification system is
For soil 8:
The plasticity index (PI) is 26.
Determine the coarse fraction as shown below.
Substitute 57 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 99 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 43 % for percent of coarse fraction 1 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” in the text book.
The soil is a fine-grained soil.
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.5 “Flowchart group names for inorganic silty and clayey soil” in the text book.
Take the group name as sandy fat clay for the group of CH,
Thus, the classification of soil 8 using unified soil classification system is
For soil 9:
The plasticity index (PI) is 16.
Determine the coarse fraction as shown below.
Substitute 11 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 71 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 89 % for percent of coarse fraction 29 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.4 “Flowchart group names for gravelly and sandy soil” in the text book.
Take the group name as poorly graded sand with clay and gravel for the group of SP-SC and gravel fraction of
Thus, the classification of soil 9 using unified soil classification system is
For soil 10:
Determine the coarse fraction as shown below.
Substitute 2 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 100 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 98 % for percent of coarse fraction 0 for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.4 “Flowchart group names for gravelly and sandy soil” in the text book.
Take the group name as well graded sand for the group of SW and gravel fraction of
Thus, the classification of soil 10 using unified soil classification system is
For soil 11:
The plasticity index (PI) is 21.
Determine the coarse fraction as shown below.
Substitute 65 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 89 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 35 % for percent of coarse fraction 11 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” in the text book.
The soil is a fine-grained soil.
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.5 “Flowchart group names for inorganic silty and clayey soil” in the text book.
Take the group name as sandy lean clay for the group of CL,
Thus, the classification of soil 11 using unified soil classification system is
For soil 12:
The plasticity index (PI) is 31.
Determine the coarse fraction as shown below.
Substitute 8 % for percent retained on No.200 sieve in Equation (1).
Determine the gravel fraction as shown below.
Substitute 90 % for percent passing No.4 sieve in Equation (2).
Determine the sand fraction using the relation.
Substitute 92 % for percent of coarse fraction 10 % for percent of coarse fraction in Equation (3).
Refer Table 5.2 “Unified soil classification system” and Figure 5.3 “Plasticity chart” in the text book.
The group symbol of the soil can be taken as
Provide the group name of soil as shown below.
Refer Figure 5.4 “Flowchart group names for gravelly and sandy soil” in the text book.
Take the group name as poorly graded sand with clay for the group of SP-SC and gravel fraction of
Thus, the classification of soil 12 using unified soil classification system is
Want to see more full solutions like this?
Chapter 5 Solutions
Bundle: Principles Of Geotechnical Engineering, Loose-leaf Version, 9th + Mindtap Engineering, 1 Term (6 Months) Printed Access Card
- Classify the following soils by using the Unified soil classification system. what is the group symbol and group name? Sieve analysis - Liquid Plasticity Index Limit Soil Percent finer Cu Cc No. 4 No. 200 A 48 20 41 22arrow_forwardShow your complete solution so I can follow thanksarrow_forwardClassify the soil sample using USDA Textural Classification System if the sample has the following particle size distribution. Gravel = 18 % Silt = 11 % Sand = 66 % Clay = 5 % O Loamy Sand O sity Loam O Sandy Loam O sity Clayarrow_forward
- Write in clean white paper...arrow_forwardClassify the following soils by the AASHTO classification system. Give the group index for each soil. Sieve analysis- Percent finer Liquid limit Plasticity index Soil No. 10 No. 40 No. 200 A 98 80 72 52 21 90 74 58 38 12 84 71 64 41 14 D 100 78 82 32 12 E 80 68 48 30 11 © Cengage Learning 2014arrow_forwardThe result of sieve analysis of three soils is given next. It is required to classify these soils according to the AASHTO Classification System. Use the attached AASHTO Classification of Highway Subgrade Materials Table. (a) Classification of Soil A. (b) Classification of Soil B. (c) Classification of Soil C. Sieve Analysis Results for Situation 9 Sieve Analysis Sieve Diameter, Percent Passing Number mm. 4.76 90 100 100 8. 2.38 84 90 100 10 2. 72 77 98 20 0.84 66 59 91 40 0.42 58 50 85 60 0.25 50 42 79 100 0.149 44 36 70 200 0.074 38 33 LL 42 46 47 PL 23 29 24 63arrow_forward
- Give me right solution with clear steps according to the question... This is the single question.. Give me complete solutionarrow_forwardClassify the soil sample using USDA Textural Classification System if the sample has the following particle size distribution. Gravel = 8 % Sand = 53 % Silt = 28 % Clay = 11 % O Sandy Clay O sity Loam O Sandy Loam O sity Clayarrow_forward1. Classify the following soils by using the USDA's textural classification chart. Soil Particle-size Distribution (%) A B C D E Gravel 0 0 10 20 15 Sand 25 5 20 40 32 Silt 65 7 35 22 25 Clay 10 88 30 18 28arrow_forward
- Classify the given soil to be used as highway subgrade material using the AASHTO Method by using the attached table for its classification. Sieve analysis % finer No. 10 Sieve = 47% %3D No. 40 Sieve = 28% No. 200 Sieve = 9% Plasticity for the minus NO.40 fraction LL = 0 PI = 2%arrow_forward3. Classify the following soils using the Unified Soil Classification System. Give group symbols and group names. Sieve Analysis (percent finer) Liquid Plastic Soil No. Comments Limit Limit No. 4 No. 200 1 94 3 NP 100 77 63 25 3 100 86 55 28 Cu = 4.48 4 100 45 36 22 And Cc= 1.22 5 92 48 30 60 40 26 4 7 99 76 60 32arrow_forwardQuestion 4 Classify the following soils using the Unified soil classification system. Give group symbols and group names. % Passing No. 4: 99 % Passing No. 200: 76 LL = 60 PL = 32 %3D Group Symbol: Blank 1 Group name: Blank 2 Blank 1 Add your answer Blank 2 Add your answerarrow_forward
- Fundamentals of Geotechnical Engineering (MindTap...Civil EngineeringISBN:9781305635180Author:Braja M. Das, Nagaratnam SivakuganPublisher:Cengage LearningPrinciples of Geotechnical Engineering (MindTap C...Civil EngineeringISBN:9781305970939Author:Braja M. Das, Khaled SobhanPublisher:Cengage Learning