Shear Strength Of Soil

10 Questions MCQ Test Topicwise Question Bank for GATE Civil Engineering | Shear Strength Of Soil

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Which one of the following conditions is valid in case of unconfined compression test in comparison to tri-axial test?


Unconfined compression test is a special case of tri-axial test in which the confining pressure is zero. This test may be conducted on undisturbed or remoulded cohesive soils. It cannot be conducted on coarse-grained soils such as sands and gravels as these cannot stand without lateral support.


Which one of the following is the appropriate tri- axial test to assess the immediate stability of an unloading probfem, such as an excavation of a clay slope?


For problems of short term-stability of foundations: excavations and earth dams UU (Unconsolidated , Undrained) tests are appropriate. For problems of long-term stability either UU test or CD test is appropriate, depending upon the drainage conditions of soil.


In a tri-axial test at failure, major principal stress was 180 kPa, minor principal stress was 100 kPa, and pore pressure was 20 kPa. The sine of the angle of shearing resistance of the sandy soil tested is


Effective minor principal stress.


The relationship between a soil cohesion c and unconfined compressive strength qu is given as


In tri-axial compression test, the deviator stress is given by


In tri-axial compression test,
Minor principal stress = confining pressure


For saturated soil, Skempton’s B-parameter is


Skempton’s B-parameter is given by,

Cv is volume compressibility of pore fluid under isotropic conditions,
Cs is the coefficient of compressibility of the soil skeleton;n is porosity
In a fully saturated soil, the compressibility of the pore water (Cv) is negligible compared with the compressibility of the soil mass (Cs). Therefore, the ratio (Cv/Cs) tends to zero and the coefficient B becomes equal to unity.
In a partially saturated soil, the compressibility of the air in the voids Is high. The ratio (Cv/Cs) has a value greater than unity, and, therefore, the pore pressure coefficient B has a value of less than unity.


In an unconfined compression test on a clay specimen of initial volume V and length L, the area of cross-section at failure is


As the sample is sheared, its length decreases and the diameter increases. The cross-sectional area A at any stage during shear can be determined 


The stresses responsible for mobilisation of shearing strength of soil is


The shear strength of a soil is its maximum resistance to shear stress just before the failure. Shear stress develop when soils are subjected to compression.
Terzaghi established that the normal stresses which control the shear strength of a soil are the effective stresses and not the total stresses. In terms of effective stresses shear strength is written as


In a direct shear test, the shear stress and normal stress on a dry sand sample at failure are 0.6 kg/cm2 and 1 kg/cm2 respectively. The angle of internal friction of the sand will be nearly:



A dense dry sand sample under tri-axial test has the confining pressure of 20 t/m2. The angle of internal! friction is 350. The sample will fail at normal pressure of about:


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