The ratio of lateral strain to axial strain of a homogeneous material, is known

Theory of Structures
The ratio of lateral strain to axial strain of a homogeneous material, is known

Yield ratio

Poisson’s ratio

Plastic ratio

Hooke’s ratio

Yield ratio

Poisson’s ratio

Plastic ratio

Hooke’s ratio

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Theory of Structures
A cantilever of length ‘L’ is subjected to a bending moment ‘M’ at its free end. If EI is the flexural rigidity of the section, the deflection of the free end, is

ML/2EI

ML²/2EI

ML/EI

ML²/3EI

ML/2EI

ML²/2EI

ML/EI

ML²/3EI

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Theory of Structures
A compound bar consists of two bars of equal length. Steel bar cross -section is 3500 mm²and that of brass bar is 3000 mm². These are subjected to a compressive load 100,000 N. If Eb = 0.2 MN/mm² and Eb = 0.1 MN/mm², the stresses developed are:

b = 10 N/mm² s = 20 N/mm 2

b = 6 N/mm² s = 12 N/mm²

b = 8 N/mm² s = 16 N/mm²

b = 5 N/mm² s = 10 N/mm²

b = 10 N/mm² s = 20 N/mm 2

b = 6 N/mm² s = 12 N/mm²

b = 8 N/mm² s = 16 N/mm²

b = 5 N/mm² s = 10 N/mm²

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Theory of Structures
Slenderness ratio of a long column, is

Radius of gyration divided by area of cross-section

Length of column divided by least radius of gyration

Area of cross-section divided by radius of gyration

Area of cross-section divided by least radius of gyration

Radius of gyration divided by area of cross-section

Length of column divided by least radius of gyration

Area of cross-section divided by radius of gyration

Area of cross-section divided by least radius of gyration

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Theory of Structures
A masonry dam (density = 20,000 N/m³) 6 m high, one metre wide at the top and 4 m wide at the base, has vertical water face. The minimum stress at the base of the dam when the reservoir is full, will be

7500 N/m²

750 N/m²

75000 N/m²

75 N/m²

7500 N/m²

750 N/m²

75000 N/m²

75 N/m²

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Theory of Structures
Stress may be expressed in Newtons

None of these

Per metre square (N/m2)

Per centimetre square (N/cm²)

Per millimetre square (N/mm²)

None of these

Per metre square (N/m2)

Per centimetre square (N/cm²)

Per millimetre square (N/mm²)

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Theory of Structures

Theory of Structures The ratio of lateral strain to axial strain of a homogeneous material, is known

Theory of Structures A cantilever of length ‘L’ is subjected to a bending moment ‘M’ at its free end. If EI is the flexural rigidity of the section, the deflection of the free end, is

Theory of Structures A compound bar consists of two bars of equal length. Steel bar cross -section is 3500 mm²and that of brass bar is 3000 mm². These are subjected to a compressive load 100,000 N. If Eb = 0.2 MN/mm² and Eb = 0.1 MN/mm², the stresses developed are:

Theory of Structures Slenderness ratio of a long column, is

Theory of Structures A masonry dam (density = 20,000 N/m³) 6 m high, one metre wide at the top and 4 m wide at the base, has vertical water face. The minimum stress at the base of the dam when the reservoir is full, will be

Theory of Structures Stress may be expressed in Newtons

Theory of Structures
The ratio of lateral strain to axial strain of a homogeneous material, is known

Theory of Structures
A cantilever of length ‘L’ is subjected to a bending moment ‘M’ at its free end. If EI is the flexural rigidity of the section, the deflection of the free end, is

Theory of Structures
A compound bar consists of two bars of equal length. Steel bar cross -section is 3500 mm²and that of brass bar is 3000 mm². These are subjected to a compressive load 100,000 N. If Eb = 0.2 MN/mm² and Eb = 0.1 MN/mm², the stresses developed are:

Theory of Structures
Slenderness ratio of a long column, is

Theory of Structures
A masonry dam (density = 20,000 N/m³) 6 m high, one metre wide at the top and 4 m wide at the base, has vertical water face. The minimum stress at the base of the dam when the reservoir is full, will be

Theory of Structures
Stress may be expressed in Newtons