The general expression for the B.M. of a beam of length l is the beam carries M = (wl/2) x – (wx²/2)

Theory of Structures
The general expression for the B.M. of a beam of length l is the beam carries M = (wl/2) x – (wx²/2)

None of these

An isolated load at mid span

A uniformly distributed load w/unit length

A load varying linearly from zero at one end to w at the other end

None of these

An isolated load at mid span

A uniformly distributed load w/unit length

A load varying linearly from zero at one end to w at the other end

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Theory of Structures
The assumption in the theory of bending of beams is:

Material is isotropic

Young’s modulus is same in tension as well as in compression

Material is homogeneous

All of these

Material is isotropic

Young’s modulus is same in tension as well as in compression

Material is homogeneous

All of these

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Theory of Structures
A bar L metre long and having its area of cross-section A, is subjected to a gradually applied tensile load W. The strain energy stored in the bar is

WL/AE

WL/2AE

W²L/2AE

W²L/AE

WL/AE

WL/2AE

W²L/2AE

W²L/AE

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Theory of Structures
In case of principal axes of a section

Product of moment of inertia is zero

None of these

Sum of moment of inertia is zero

Difference of moment inertia is zero

Product of moment of inertia is zero

None of these

Sum of moment of inertia is zero

Difference of moment inertia is zero

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Theory of Structures
Stress may be expressed in Newtons

None of these

Per metre square (N/m2)

Per millimetre square (N/mm²)

Per centimetre square (N/cm²)

None of these

Per metre square (N/m2)

Per millimetre square (N/mm²)

Per centimetre square (N/cm²)

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Theory of Structures
Pick up the incorrect statement from the following: The torsional resistance of a shaft is directly proportional to

Reciprocal of the length of the shaft

Angle of twist

Moment of inertia of the shaft section

Modulus of rigidity

Reciprocal of the length of the shaft

Angle of twist

Moment of inertia of the shaft section

Modulus of rigidity

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Theory of Structures

Theory of Structures The general expression for the B.M. of a beam of length l is the beam carries M = (wl/2) x – (wx²/2)

Theory of Structures The assumption in the theory of bending of beams is:

Theory of Structures A bar L metre long and having its area of cross-section A, is subjected to a gradually applied tensile load W. The strain energy stored in the bar is

Theory of Structures In case of principal axes of a section

Theory of Structures Stress may be expressed in Newtons

Theory of Structures Pick up the incorrect statement from the following: The torsional resistance of a shaft is directly proportional to

Theory of Structures
The general expression for the B.M. of a beam of length l is the beam carries M = (wl/2) x – (wx²/2)

Theory of Structures
The assumption in the theory of bending of beams is:

Theory of Structures
A bar L metre long and having its area of cross-section A, is subjected to a gradually applied tensile load W. The strain energy stored in the bar is

Theory of Structures
In case of principal axes of a section

Theory of Structures
Stress may be expressed in Newtons

Theory of Structures
Pick up the incorrect statement from the following: The torsional resistance of a shaft is directly proportional to