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Test: Shrinkage Limit & Particle Size Distribution Curve - Civil Engineering (CE) MCQ


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15 Questions MCQ Test Soil Mechanics - Test: Shrinkage Limit & Particle Size Distribution Curve

Test: Shrinkage Limit & Particle Size Distribution Curve for Civil Engineering (CE) 2024 is part of Soil Mechanics preparation. The Test: Shrinkage Limit & Particle Size Distribution Curve questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: Shrinkage Limit & Particle Size Distribution Curve MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Shrinkage Limit & Particle Size Distribution Curve below.
Solutions of Test: Shrinkage Limit & Particle Size Distribution Curve questions in English are available as part of our Soil Mechanics for Civil Engineering (CE) & Test: Shrinkage Limit & Particle Size Distribution Curve solutions in Hindi for Soil Mechanics course. Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free. Attempt Test: Shrinkage Limit & Particle Size Distribution Curve | 15 questions in 45 minutes | Mock test for Civil Engineering (CE) preparation | Free important questions MCQ to study Soil Mechanics for Civil Engineering (CE) Exam | Download free PDF with solutions
Test: Shrinkage Limit & Particle Size Distribution Curve - Question 1
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Which of the following apparatus does not include, in a determination of shrinkage limit?

Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 1

The equipment for determination of shrinkage limit consist of Porcelain evaporating dish, two glass plates, stainless steel shrinking dish.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 2
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A soil sample may be well graded if __________

Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 2

A soil is said to be well graded when it has a good representation of particle of all size.

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Test: Shrinkage Limit & Particle Size Distribution Curve - Question 3
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The inside of the shrinkage dish is coated with a thin layer of _________

Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 3

Vaseline prevents the formation of air-bubbles. Hence it is used as for inner coating in a shrinking dish.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 4
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The shape of particle size curve, which is represented by the coefficient of curvature (Cc) is given by __________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 4

The coefficient of curvature (Cc) is given by the equation Cc = (D30)2/D10×D60.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 5
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The curve situated at the right side of the particle size distribution curve is _________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 5

The right side the particle size distribution curve shows the coarse-grained while the left shows the relatively fine-grained soil.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 6
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What are the ways of preventing of inclusion of air bubbles in shrinkage dish?
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 6

Mixing the soil with sufficient distilled water and making it pasty enough prevents forming air bubbles in shrinking dish.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 7
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A curve with a flat portion, in particle size distribution curve represent __________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 7

A curve with a flat portion represents oil in which intermediate size particle are missing.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 8
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The volume shrinkage (VS) is defined by the formula _________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 8

Since VS = (VL-Vd) × 100/Vd
But, (VL-Vd)×100/Vd = (WL-WS) SR
Therefore, VS = (WL-WS) SR.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 9
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The time of settlement of the finest particle of soil sample is 15hr20min49sec. calculate the height of the water tank. Take D = 0.01 mm, γ = 0.905D2.
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 9

γ = 0.905(0.01)
γ = 9.05 × 10-5
t = 15hr 20min 49sec = 55429 sec
t = h/v
55429 = h/9.05 × 10-5
h = 55429 × 9.05 × 10-5
h = 5.000034 m.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 10
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Shrinking limit can be found out using alternate method, if __________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 10

Alternatively, shrinking limit can be found out if the specific gravity G of the soil grains is known.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 11
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A particle-size distribution curve gives us an idea about __________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 11

A particle-size curve shows both type and gradation of the soil.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 12
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The density of the mercury, used in shrinkage limit apparatus is _________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 12

The density of mercury = 13.6 g/cm3.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 13
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For coarse grained soil, the particle size D10 is sometimes called as __________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 13

The size D10 is sometimes called as the effective size or effective diameter.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 14
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The volume of the wet soil, present in shrinkage dish_________ of volume of dish.
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 14

One –third of shrinkage dish is filled with wet soil to prevent overflow.

Test: Shrinkage Limit & Particle Size Distribution Curve - Question 15
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The coefficient of uniformity (CV) is the ratio of _________
Detailed Solution for Test: Shrinkage Limit & Particle Size Distribution Curve - Question 15

The coefficient of uniformity CV, is defined as the ratio of D60 and D10
i.e.CV = D60/ D10.

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