The ratio of circumferential stress to the longitudinal stress in the walls of a cylindrical shell, due to flowing liquid, is

Theory of Structures
The ratio of circumferential stress to the longitudinal stress in the walls of a cylindrical shell, due to flowing liquid, is

1½

½

1

2

1½

½

1

2

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Theory of Structures
A simply supported beam A carries a point load at its mid span. Another identical beam B carries the same load but uniformly distributed over the entire span. The ratio of the maximum deflections of the beams A and B, will be

2/3

3/2

8/5

5/8

2/3

3/2

8/5

5/8

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Theory of Structures
The greatest load which a spring can carry without getting permanently distorted, is called

Stiffness

Proof stress

Proof resilience

Proof load

Stiffness

Proof stress

Proof resilience

Proof load

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Theory of Structures
A steel rod of sectional area 250 sq. mm connects two parallel walls 5 m apart. The nuts at the ends were tightened when the rod was heated to 100°C. If steel = 0.000012/C°, Esteel = 0.2 MN/mm², the tensile force developed at a temperature of 50°C, is

100 N/mm 2

150 N/mm²

80 N/mm²

120 N/mm²

100 N/mm 2

150 N/mm²

80 N/mm²

120 N/mm²

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

Rankine's theory

Haig's theory

Guest's or Trecas' theory

St. Venant's theory

Rankine's theory

Haig's theory

Guest's or Trecas' theory

St. Venant's theory

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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

All of these

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

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

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

All of these

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

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

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Theory of Structures

Theory of Structures The ratio of circumferential stress to the longitudinal stress in the walls of a cylindrical shell, due to flowing liquid, is

Theory of Structures A simply supported beam A carries a point load at its mid span. Another identical beam B carries the same load but uniformly distributed over the entire span. The ratio of the maximum deflections of the beams A and B, will be

Theory of Structures The greatest load which a spring can carry without getting permanently distorted, is called

Theory of Structures A steel rod of sectional area 250 sq. mm connects two parallel walls 5 m apart. The nuts at the ends were tightened when the rod was heated to 100°C. If steel = 0.000012/C°, Esteel = 0.2 MN/mm², the tensile force developed at a temperature of 50°C, is

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

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

Theory of Structures
The ratio of circumferential stress to the longitudinal stress in the walls of a cylindrical shell, due to flowing liquid, is

Theory of Structures
A simply supported beam A carries a point load at its mid span. Another identical beam B carries the same load but uniformly distributed over the entire span. The ratio of the maximum deflections of the beams A and B, will be

Theory of Structures
The greatest load which a spring can carry without getting permanently distorted, is called

Theory of Structures
A steel rod of sectional area 250 sq. mm connects two parallel walls 5 m apart. The nuts at the ends were tightened when the rod was heated to 100°C. If steel = 0.000012/C°, Esteel = 0.2 MN/mm², the tensile force developed at a temperature of 50°C, is

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

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