The ratio of shear stress and shear strain of an elastic material, is

Theory of Structures
The ratio of shear stress and shear strain of an elastic material, is

Shear Modulus

Both A. and B.

Modulus of Rigidity

Modulus of Elasticity

Shear Modulus

Both A. and B.

Modulus of Rigidity

Modulus of Elasticity

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

The moment of inertia is calculated about the axis about which bending takes place

If tensile stress is equal to axial stress, the section experiences compressive stress

If tensile stress is less than axial stress, the section experiences compressive stress

All of these

The moment of inertia is calculated about the axis about which bending takes place

If tensile stress is equal to axial stress, the section experiences compressive stress

If tensile stress is less than axial stress, the section experiences compressive stress

All of these

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Theory of Structures
For calculating the allowable stress of long columns σ0 = σy/n [1 - a (1/r)²]is the empirical formula, known as

Parabolic formula

Perry

Rankine

Straight line formula

Parabolic formula

Perry

Rankine

Straight line formula

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Theory of Structures
A shaft subjected to a bending moment M and a torque T, experiences

Maximum shear stress = 16 T/πd³

Maximum bending stress = 32M/πd³

Neither A nor B

Both A and B

Maximum shear stress = 16 T/πd³

Maximum bending stress = 32M/πd³

Neither A nor B

Both A and B

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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

H = 0

All of these

M = 0

V = 0

H = 0

All of these

M = 0

V = 0

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Theory of Structures
A lift of weight W is lifted by a rope with an acceleration f. If the area of cross-section of the rope is A, the stress in the rope is

[W (2 + g/f)]/A

[W (2 + f/G)]/A

(1 – g/f)/A

[W (1 + f/ G)]/ A

[W (2 + g/f)]/A

[W (2 + f/G)]/A

(1 – g/f)/A

[W (1 + f/ G)]/ A

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Theory of Structures

Theory of Structures The ratio of shear stress and shear strain of an elastic material, is

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

Theory of Structures For calculating the allowable stress of long columns σ0 = σy/n [1 - a (1/r)²]is the empirical formula, known as

Theory of Structures A shaft subjected to a bending moment M and a torque T, experiences

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 A lift of weight W is lifted by a rope with an acceleration f. If the area of cross-section of the rope is A, the stress in the rope is

Theory of Structures
The ratio of shear stress and shear strain of an elastic material, is

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

Theory of Structures
For calculating the allowable stress of long columns σ0 = σy/n [1 - a (1/r)²]is the empirical formula, known as

Theory of Structures
A shaft subjected to a bending moment M and a torque T, experiences

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
A lift of weight W is lifted by a rope with an acceleration f. If the area of cross-section of the rope is A, the stress in the rope is