Maximum principal stress theory for the failure of a material at elastic point, is known

Theory of Structures
Maximum principal stress theory for the failure of a material at elastic point, is known

Guest's or Trecas' theory

Rankine's theory

St. Venant's theory

Von Mises' theory

Guest's or Trecas' theory

Rankine's theory

St. Venant's theory

Von Mises' theory

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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

Steel experiences tensile force

All of these

Composite beam gets subjected to a couple

Brass experiences compressive force

Steel experiences tensile force

All of these

Composite beam gets subjected to a couple

Brass experiences compressive force

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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)

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

A uniformly distributed load w/unit length

None of these

An isolated load at mid span

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

A uniformly distributed load w/unit length

None of these

An isolated load at mid span

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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 = 5 N/mm² s = 10 N/mm²

b = 8 N/mm² s = 16 N/mm²

b = 6 N/mm² s = 12 N/mm²

b = 10 N/mm² s = 20 N/mm 2

b = 5 N/mm² s = 10 N/mm²

b = 8 N/mm² s = 16 N/mm²

b = 6 N/mm² s = 12 N/mm²

b = 10 N/mm² s = 20 N/mm 2

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Theory of Structures
The horizontal deflection of a parabolic curved beam of span 10 m and rise 3 m when loaded with a uniformly distributed load l t per horizontal length is (where Ic is the M.I. at the crown, which varies as the slope of the arch).

100/EIc

50/EIc

150/EIc

200/EIc

100/EIc

50/EIc

150/EIc

200/EIc

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

Maximum bending stress = 32M/πd³

Neither A nor B

Maximum shear stress = 16 T/πd³

Both A and B

Maximum bending stress = 32M/πd³

Neither A nor B

Maximum shear stress = 16 T/πd³

Both A and B

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Theory of Structures

Theory of Structures Maximum principal stress theory for the failure of a material at elastic point, is known

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 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 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 The horizontal deflection of a parabolic curved beam of span 10 m and rise 3 m when loaded with a uniformly distributed load l t per horizontal length is (where Ic is the M.I. at the crown, which varies as the slope of the arch).

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

Theory of Structures
Maximum principal stress theory for the failure of a material at elastic point, is known

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
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
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
The horizontal deflection of a parabolic curved beam of span 10 m and rise 3 m when loaded with a uniformly distributed load l t per horizontal length is (where Ic is the M.I. at the crown, which varies as the slope of the arch).

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