Explore topic-wise MCQs in Geotechnical Engineering.

This section includes 130 Mcqs, each offering curated multiple-choice questions to sharpen your Geotechnical Engineering knowledge and support exam preparation. Choose a topic below to get started.

1.

The drawdown curve in fully penetrated slot is based on the assumptions of _____________

A. Dupuit and Forchheimer
B. Darcy
C. None of the mentioned
D. All of the mentioned
Answer» B. Darcy
Discussion
2.

For fine-grained soil what type of dewatering system can be used?

A. Electro-osmosis method
B. Shallow well system
C. Deep well system
D. Vacuum method
Answer» E.
Discussion
3.

The application of electro-osmosis on dewatering of soil was developed by ___________

A. L. casagrande
B. Darcy
C. Chapmen
D. Dupuit
Answer» B. Darcy
Discussion
4.

In discharge equation given by chapmen qp=kba(H-ho)/L+EA, EA refers to __________

A. Coefficient of permeability
B. Electric gradient
C. Extra length factor
D. Efficiency of permeability of soil
Answer» D. Efficiency of permeability of soil
Discussion
5.

When dewatering system consist of number of well-points ___________ can be considered for a simplified solution.

A. Linear drainage limit
B. Seepage analysis
C. Flow of water
D. All of the mentioned
Answer» B. Seepage analysis
Discussion
6.

A complete design of dewatering system consist of ___________

A. Spacing of wells
B. Penetration of wells
C. Pumping capacities
D. All of the mentioned
Answer» E.
Discussion
7.

Discharge for a unconfined aquifer can be found from the expression developed by __________

A. Dupuit
B. Darcy
C. Chapman
D. Baron
Answer» D. Baron
Discussion
8.

Fine grained cohesive soil can be drained or stabilized by __________

A. Vacuum method
B. Electro-osmosis method
C. Shallow well system
D. Well point system
Answer» C. Shallow well system
Discussion
9.

The seepage analysis is done on the assumption of ____________

A. Flow is laminar and Darcy’s law is valid
B. Seepage of water
C. None of the mentioned
D. All of the mentioned
Answer» B. Seepage of water
Discussion
10.

A flow line in seepage through a soil medium is defined as the

A. Path of particles of water through saturated soil mass
B. Line connecting points of equal head of water
C. Flow of movement of fine particles of soil
D. Direction of the flow particle
Answer» B. Line connecting points of equal head of water
Discussion
11.

A phreatic line is defined as the line within a dam section below which there is/are-

A. Negative equipotential lines
B. Positive hydrostatic pressure
C. Positive equipotential lines
D. Negative hydrostatic pressure
Answer» C. Positive equipotential lines
Discussion
12.

Consider the following statements:1. A braced coffer dam is used in shallow trench excavation as well as in deep excavation exceeding 6 m in depth.2. Coffer dams, braced or un-braced, are temporary structures either on land or in water bodies.3. When sheet piling is used for retaining soil, or soil and water, without any bracing, it is called a bulkhead.Which of the above statements are correct?

A. 1, 2 and 3
B. 1 and 2 only
C. 1 and 3 only
D. 2 and 3 only
Answer» E.
Discussion
13.

Impending boiling of soil occurs when the critical gradient is equal to

A. twice the void ratio
B. infinity
C. zero
D. unity
Answer» E.
Discussion
14.

A soil has a discharge velocity of 6 × 10-7 m/s and a void ratio of 0.5. What is its seepage velocity?

A. 3 × 10-7 m/s
B. 6 × 10-7 m/s
C. 12 × 10-7 m/s
D. 18 × 10-7 m/s
Answer» E.
Discussion
15.

A coarse-gained soil has a void ratio of 0.78 and specific gravity as 2.67. The critical gradient at which a quick sand condition occurs will be

A. 0.62
B. 0.74
C. 0.82
D. 0.94
Answer» E.
Discussion
16.

Ground water flows through an aquifer with a cross-sectional area of 1.0 × 104 m2 and a length of 1500 m. Hydraulic beads are 300 m and 250 m at the ground water entry and exit points in the aquifer respectively. Ground water discharge into stream is at the rate of 1500 m3/day. The corresponding hydraulic conductivity of this aquifer will be

A. 3.5 m/day
B. 4.5 m/day
C. 5.0 m/day
D. 5.5 m/day
Answer» C. 5.0 m/day
Discussion
17.

A flow net may be utilized for the determination of:

A. Hydrostatic pressure only
B. Seepage only
C. Exit gradient only
D. All of the above
Answer» E.
Discussion
18.

A unit volume of a mass saturated soil is subjected to horizontal seepage. The saturated unit weight is 22 kN/m3 and the hydraulic gradient is 0.3 the resultant body force on the soil mass is ______.

A. 6.6 kN
B. 22.97 kN
C. 1.98 kN
D. 12.54 kN
Answer» E.
Discussion
19.

In a soil specimen, the total stress, effective stress, hydraulic gradient, and critical hydraulic gradient are σ, σ’, i and ic, respectively. For initiation of quicksand condition, which one of the following statements is TRUE?

A. σ’ = 0 and i = iC
B. σ = 0 and i = iC
C. σ’ ≠ 0 and i = iC
D. σ’ ≠ 0 and i ≠ iC
Answer» B. σ = 0 and i = iC
Discussion
20.

A flownet of a cofferdam foundation has 6 flow channels and 18 equipotential drops. The head loss during seepage is 6 m. If the coefficient of permeability of soil is 4 x 10-5 m/min, then the seepage loss (m3/day) is

A. 72
B. 8
C. 0.115
D. 1.037
Answer» D. 1.037
Discussion
21.

A flow net is used to determine the following:-

A. Seepage and exist gradient only
B. Seepage, coefficient of permeability and exit gradient
C. Seepage, exist gradient and uplift pressure
D. Seepage, coefficient of permeability and uplift pressure
Answer» D. Seepage, coefficient of permeability and uplift pressure
Discussion
22.

A flow net is drawn to obtain

A. exit gradient, seepage and coefficient of permeability
B. exit gradient, uplift pressure and seepage
C. coefficient of permeability, uplift pressure and exit gradient
D. seepage, coefficient of permeability and uplift pressure
Answer» C. coefficient of permeability, uplift pressure and exit gradient
Discussion
23.

Flow between any two points in a soil depends only on the difference in

A. Pressure head
B. Total head
C. Velocity head
D. Datum head
Answer» C. Velocity head
Discussion
24.

In a fully saturated soil, Skempton’s pore pressure parameter B becomes equal to

A. 0
B. 0.5
C. 0.75
D. 1.0
Answer» E.
Discussion
25.

In the graphical method of obtaining flow nets, if the lowest flow line confirms to the bottom boundary conditions, the flow net:

A. Is correct
B. Needs a small adjustment
C. Needs a bigger adjustment
D. Can't be corrected
Answer» B. Needs a small adjustment
Discussion
26.

For laminar flow conditions in saturated soils, the rate of percolation is ______ the hydraulic gradient.

A. directly proportional to
B. inversely proportional to
C. directly proportional to the square of
D. inversely proportional to the square of
Answer» B. inversely proportional to
Discussion
27.

Who was the first to give a graphical method of flow net construction?

A. Casagrande
B. Darcy
C. Forchheimer
D. Kozney
Answer» D. Kozney
Discussion
28.

What kind of method was suggested by Casagrande, for determining the phreatic line?

A. Experimental method
B. Analytical method
C. Graphical method
D. All of the mentioned
Answer» D. All of the mentioned
Discussion
29.

The flow lines and equipotential lines are ____________

A. Parallel
B. Perpendicular
C. Elliptical
D. All of the mentioned
Answer» C. Elliptical
Discussion
30.

The focus in an earth dam with no filter is ________

A. lowest point of d/s slope
B. highest point of d/s slope
C. high flood level
D. medium flood level
Answer» B. highest point of d/s slope
Discussion
31.

What will be the hydrostatic pressure if, hW = 30% and Z = 10%?

A. 30%
B. 10%
C. 40%
D. 50%
Answer» D. 50%
Discussion
32.

The base parabola is the ________

A. top flow line
B. middle flow line
C. bottom flow line
D. ¼ of top flow line
Answer» B. middle flow line
Discussion
33.

The analytical solution of schaffernak and Van Iterson gave result only for slopes, having __________

A. α>30°
B. α<30°
C. α>60°
D. α<60°
Answer» C. α>60°
Discussion
34.

If a fully saturated soil mass has a water content of 100%, then its void ratio is _________

A. less than the specific gravity
B. greater than the specific gravity
C. equal to specific gravity
D. does not depend on specific gravity
Answer» D. does not depend on specific gravity
Discussion
35.

For an anisotropic soil ________ is true.

A. kₓ≠kᵧ
B. kₓ+kᵧ=0
C. kₓ-kᵧ=0
D. kₓ/kᵧ=1
Answer» B. kₓ+kᵧ=0
Discussion
36.

The laplacian form of equation for anisotropic soil is ______

A. \(\frac{∂^2 h}{∂x^2}+\frac{∂^2 h}{∂y^2}=0\)
B. \(k_x \frac{∂^2 h}{∂x^2}+\frac{∂^2 h}{∂y^2}=0\)
C. \(\frac{∂^2 h}{∂x^2}+k_y\frac{∂^2 h}{∂y^2}=0\)
D. \(\frac{k_x}{k_y}\frac{∂^2 h}{∂x^2}+\frac{∂^2 h}{∂y^2}=0\)
Answer» E.
Discussion
37.

Kozney’s top flow lines is called as ____________

A. Basic and Base parabola
B. Simple parabola
C. None of the mentioned
D. All of the mentioned
Answer» B. Simple parabola
Discussion
38.

Which of the following is similar to that of khosla’s theory?

A. Darcy’s theory
B. Terzaghi’s theory
C. Bligh’s theory
D. Haigh theory
Answer» D. Haigh theory
Discussion
39.

A coarse-grained soil has a voids ratio of 0.66 and specific gravity G of 2.65. What will be its critical hydraulic gradient?

A. 0.99
B. 0.88
C. 0.77
D. 0.66
Answer» B. 0.88
Discussion
40.

If a soil has a submerged unit weight of 10.69 kN/m³, what will be its critical hydraulic gradient?

A. 1.09
B. 0.88
C. 1.77
D. 1.66
Answer» B. 0.88
Discussion
41.

What are the essentials, required to draw a flow net?

A. Top Flow and Phreatic line
B. Stream line
C. None of the mentioned
D. All of the mentioned
Answer» B. Stream line
Discussion
42.

Water is flowing at a rate of 0.04 m³/s in a soil sample of 12m thick and cross section of 50m². The coefficient of permeability is 1.6*10¯³m/s. What will be the seepage force per unit volume?

A. 4.9 kN/m³
B. 3.9 kN/m³
C. 4.1 kN/m³
D. 3.2 kN/m³
Answer» B. 3.9 kN/m³
Discussion
43.

Water is flowing at a rate of 0.04 m³/s in a soil sample of 12m thick and cross section of 50m². The coefficient of permeability is 1.6*10¯³m/s. The submerged unit weight γ’=9.59 kN/m³. Calculate the effective pressure if flow is in upward direction.

A. 50.76 kN/m²
B. 52.34 kN/m²
C. 55.34 kN/m²
D. 56.22 kN/m²
Answer» E.
Discussion
44.

The solution of velocity potential φ can be obtained by which of the following methods?

A. Analytical methods
B. Graphical methods
C. Experimental methods
D. All of the mentioned
Answer» E.
Discussion
45.

According to theory of flow of fluids through porous medium, the saturated porous medium is ___________

A. Compressible
B. Incompressible
C. Moderately compressible
D. Highly compressible
Answer» C. Moderately compressible
Discussion
46.

If a soil has a voids ratio of 0.68 and water percolating through it has a discharge velocity of 1.35*10¯²cm/s. Calculate its seepage velocity.

A. 1.35*10¯²cm/s
B. 2.35*10¯²cm/s
C. 3.34*10¯²cm/s
D. 1.05*10¯²cm/s
Answer» D. 1.05*10¯²cm/s
Discussion
47.

If the discharge velocity is 1.35*10¯²cm/s and seepage velocity is 3.95*10¯²cm/s of water through a soil, then what will be its voids ratio?

A. 0.32
B. 0.43
C. 0.52
D. 0.66
Answer» D. 0.66
Discussion
48.

Water is flowing at a rate of 0.04 m³/s in a soil sample of 12m thick and cross section of 50m². The coefficient of permeability is 1.6*10¯³m/s. The submerged unit weight γ’=9.59 kN/m³. Calculate the effective pressure if flow is in downward direction.

A. 73.94 kN/m²
B. 152.34 kN/m²
C. 155.34 kN/m²
D. 173.94 kN/m²
Answer» E.
Discussion
49.

The elevation head is taken as negative if the point is situated above the datum and positive if below the datum.

A. True
B. False
C. May be True or False
D. Can't say
Answer» C. May be True or False
Discussion
50.

The phreatic line is the ________

A. top flow line separating saturated and unsaturated zones
B. middle flow line separating saturated and unsaturated zones
C. bottom flow line separating saturated and unsaturated zones
D. bottom flow line separating saturated and partially saturated zones
Answer» B. middle flow line separating saturated and unsaturated zones
Discussion