A steel bar 5 m × 50 mm is loaded with 250,000 N. If the modulus of elasticity of the material is 0.2 MN/mm² and Poisson’s ratio is 0.25, the change in the volume of the bar is:

Theory of Structures
A steel bar 5 m × 50 mm is loaded with 250,000 N. If the modulus of elasticity of the material is 0.2 MN/mm² and Poisson’s ratio is 0.25, the change in the volume of the bar is:

3.125 cm³

2.125 cm³

4.125 cm²

1.125 cm³

3.125 cm³

2.125 cm³

4.125 cm²

1.125 cm³

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Theory of Structures
A composite beam is composed of two equal strips one of brass and other of steel. If the temperature is raised

Composite beam gets subjected to a couple

All of these

Brass experiences compressive force

Steel experiences tensile force

Composite beam gets subjected to a couple

All of these

Brass experiences compressive force

Steel experiences tensile force

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Theory of Structures
a uniform circular bar of diameter d and length , which extends by an The deflection of amount under a tensile pull , when it carries the same load at its mid-span, is

e²l²/3d²

el/2d

ee²l/3d²

el²/3d²

e²l²/3d²

el/2d

ee²l/3d²

el²/3d²

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Theory of Structures
A simply supported uniform rectangular bar breadth b, depth d and length L carries an isolated load W at its mid-span. The same bar experiences an extension e under same tensile load. The ratio of the maximum deflection to the elongation, is

L/2d

L/d

(L/2d)²

(L/3d)²

L/2d

L/d

(L/2d)²

(L/3d)²

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Theory of Structures
The area of the core of a column of cross sectional area A, is

(1/12) A

(1/3) A

(1/18) A

(1/6) A

(1/12) A

(1/3) A

(1/18) A

(1/6) A

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Theory of Structures
Slenderness ratio of a long column, is

Length of column divided by least radius of gyration

Radius of gyration divided by area of cross-section

Area of cross-section divided by least radius of gyration

Area of cross-section divided by radius of gyration

Length of column divided by least radius of gyration

Radius of gyration divided by area of cross-section

Area of cross-section divided by least radius of gyration

Area of cross-section divided by radius of gyration

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Theory of Structures

Theory of Structures A steel bar 5 m × 50 mm is loaded with 250,000 N. If the modulus of elasticity of the material is 0.2 MN/mm² and Poisson’s ratio is 0.25, the change in the volume of the bar is:

Theory of Structures A composite beam is composed of two equal strips one of brass and other of steel. If the temperature is raised

Theory of Structures a uniform circular bar of diameter d and length , which extends by an The deflection of amount under a tensile pull , when it carries the same load at its mid-span, is

Theory of Structures A simply supported uniform rectangular bar breadth b, depth d and length L carries an isolated load W at its mid-span. The same bar experiences an extension e under same tensile load. The ratio of the maximum deflection to the elongation, is

Theory of Structures The area of the core of a column of cross sectional area A, is

Theory of Structures Slenderness ratio of a long column, is

Theory of Structures
A steel bar 5 m × 50 mm is loaded with 250,000 N. If the modulus of elasticity of the material is 0.2 MN/mm² and Poisson’s ratio is 0.25, the change in the volume of the bar is:

Theory of Structures
A composite beam is composed of two equal strips one of brass and other of steel. If the temperature is raised

Theory of Structures
a uniform circular bar of diameter d and length , which extends by an The deflection of amount under a tensile pull , when it carries the same load at its mid-span, is

Theory of Structures
A simply supported uniform rectangular bar breadth b, depth d and length L carries an isolated load W at its mid-span. The same bar experiences an extension e under same tensile load. The ratio of the maximum deflection to the elongation, is

Theory of Structures
The area of the core of a column of cross sectional area A, is

Theory of Structures
Slenderness ratio of a long column, is