Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

Theory of Structures
Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

M/I = E/R = Y/F

I/M = R/E = F/Y

M/I = R/E = F/Y

M/I = E/R = F/Y

M/I = E/R = Y/F

I/M = R/E = F/Y

M/I = R/E = F/Y

M/I = E/R = F/Y

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Theory of Structures
If a solid shaft (diameter 20 cm, length 400 cm, N = 0.8 × 105 N/mm²) when subjected to a twisting moment, produces maximum shear stress of 50 N/mm 2, the angle of twist in radians, is

0.001

0.002

0.0025

0.003

0.001

0.002

0.0025

0.003

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Theory of Structures
A material is said to be perfectly elastic if

It regains its original shape partially on removal of the load

None of these

It regains its original shape on removal of the load

It does not regain its original shape at all

It regains its original shape partially on removal of the load

None of these

It regains its original shape on removal of the load

It does not regain its original shape at all

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Theory of Structures
Pick up the correct statement from the following:

All of these

In a loaded beam, the moment at which the entire section of the beam becomes fully plastic, is called plastic moment

In a fully plastic stage of the beam, the neutral axis divides the section in two sections of equal area

In a loaded beam, the moment at which the first yield occurs is called yield moment

All of these

In a loaded beam, the moment at which the entire section of the beam becomes fully plastic, is called plastic moment

In a fully plastic stage of the beam, the neutral axis divides the section in two sections of equal area

In a loaded beam, the moment at which the first yield occurs is called yield moment

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Theory of Structures
The ratio of the length and diameter of a simply supported uniform circular beam which experiences maximum bending stress equal to tensile stress due to same load at its mid span, is

1/3

1/4

1/8

1/2

1/3

1/4

1/8

1/2

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Theory of Structures
H V are the algebraic sums of the forces resolved horizontally and vertically respectively, M is the algebraic sum of the moments of forces about any point, for the equilibrium of the body acted upon

V = 0

M = 0

H = 0

All of these

V = 0

M = 0

H = 0

All of these

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Theory of Structures

Theory of Structures Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

Theory of Structures If a solid shaft (diameter 20 cm, length 400 cm, N = 0.8 × 105 N/mm²) when subjected to a twisting moment, produces maximum shear stress of 50 N/mm 2, the angle of twist in radians, is

Theory of Structures A material is said to be perfectly elastic if

Theory of Structures Pick up the correct statement from the following:

Theory of Structures The ratio of the length and diameter of a simply supported uniform circular beam which experiences maximum bending stress equal to tensile stress due to same load at its mid span, is

Theory of Structures H V are the algebraic sums of the forces resolved horizontally and vertically respectively, M is the algebraic sum of the moments of forces about any point, for the equilibrium of the body acted upon

Theory of Structures
Y are the bending moment, moment of inertia, radius of curvature, modulus of If M, I, R, E, F, and elasticity stress and the depth of the neutral axis at section, then

Theory of Structures
If a solid shaft (diameter 20 cm, length 400 cm, N = 0.8 × 105 N/mm²) when subjected to a twisting moment, produces maximum shear stress of 50 N/mm 2, the angle of twist in radians, is

Theory of Structures
A material is said to be perfectly elastic if

Theory of Structures
Pick up the correct statement from the following:

Theory of Structures
The ratio of the length and diameter of a simply supported uniform circular beam which experiences maximum bending stress equal to tensile stress due to same load at its mid span, is

Theory of Structures
H V are the algebraic sums of the forces resolved horizontally and vertically respectively, M is the algebraic sum of the moments of forces about any point, for the equilibrium of the body acted upon