Geotechnical Engineering - I - B.Tech 5th Semester Exam., 2020

Water transported soils are termed as

1. alluvial
2. aeoline
3. talus
4. loess

The three-phase soil system consists of

1. soil, water and air
2. soil, semi-solid and air
3. solids, water and air
4. solids, semi-solids and water

The standard and most accurate method for determination of water content is

1. calcium carbide method
2. torsion balance method
3. oven drying method
4. alcohol method

The property of fine grained soils to change from liquid state to plastic state with decrease of water content is known as

1. liquidity
2. plasticity
3. shrinkage
4. consistency

The meniscus and dispersing agent corrections to hydrometer reading are respectively

1. positive and positive
2. positive and negative
3. negative and negative
4. negative and positive

The maximum particle size for which Darcy's law is applicable is

1. 75 µm
2. 0.2 mm
3. 0.5 mm
4. 0.1 mm

A soil has a discharge velocity of \( 6 \times 10^{-6} \text{ m/s} \) and the porosity of 0.40. Its seepage velocity is

1. \( 15 \times 10^{-6} \text{ m/s} \)
2. \( 1.5 \times 10^{-6} \text{ m/s} \)
3. \( 2.4 \times 10^{-6} \text{ m/s} \)
4. \( 6 \times 10^{-6} \text{ m/s} \)

If water rises (unit weight of water = \( \gamma_w \)) by a height h above the groundwater table by capillary action, the pore water pressure the height at h above groundwater table is

1. zero
2. \( \gamma_w h \)
3. \( -\gamma_w h \)
4. \( \gamma_w h^2 \)

The number of blows used for compacting each layer in modified proctor test is

1. 25 blows
2. 56 blows
3. 55 blows
4. 76 blows

In which of the following footings of equal width, the vertical stress extends to larger depth below its base?

1. Square footing
2. Strip footing
3. Circular footing
4. Rectangular footing

Distinguish clearly between physical and chemical weathering.

A saturated clay has a water content of 40% and a bulk specific gravity of 1.75. Determine the void ratio and specific gravity of particles. [Take unit weight of water = 10 kN/m³]

Write a short note on the 'method of determination of Atterberg limits'.

A fully saturated clay has a water content 40% and a mass specific gravity of 1.92. After oven drying, the mass specific gravity reduces to 1.81. Determine the specific gravity of soil solids and shrinkage limit.

Sketch the grain size distribution curve for uniformly graded, well-graded and gap-graded soils and discuss their Characteristics.

Two soils \( S_1 \) and \( S_2 \) are tested in the laboratory for the consistency limits. The data available is as follows :

(i) Which one is more plastic? (ii) Which one is better foundation material when remoulded? (iii) Which one has better strength as a function of water content? (iv) Which one has better strength at the plastic limit?

How do you determine the permeability of cohesive soils in the laboratory? Derive the formula you used.

A field pumping out test gave the following data : Diameter of well = 30 cm; Thickness of confined aquifer = 35 m; Radius of circle of influence = 300 m; Drawdown during the test = 5.5 m; Pump discharge = 0.9 cumecs. Compute the permeability of the aquifer.

What is quick sand? How would you calculate the hydraulic gradient required to create quick sand conditions in sand?

A sand deposit consists of two layers. The top layer is 3.0 m thick (unit weight = 17 kN/m³) and the bottom layer is 4.0 m thick (unit weight = 18 kN/m³). The water table is at a depth of 4.0 m from the top. Draw the diagram and show the variation of total stress, neutral stress and effective stress.

What are the factors that affect compaction? Discuss in detail.

A laboratory compaction test on the soil having specific gravity 2.70 gave an MDD of 1.85 gm/cc and a water content of 19%. Determine the degree of saturation, air content and percentage air voids at the MDD. What would be theoretical MDD corresponding to zero air voids at the OMC?

Derive the equation for vertical stress due to line load of intensity q.

A point load of 250 kN acts on the ground surface. Using the Boussinesq analysis, find the maximum vertical pressure on the vertical plane at a distance of 3 m from the loading.