The yield moment of a cross section is defined as the moment that will just produce the yield stress in

Theory of Structures
The yield moment of a cross section is defined as the moment that will just produce the yield stress in

The outer most fibre of the section

The inner most fibre of the section

The fibre everywhere

The neutral fibre of the section

The outer most fibre of the section

The inner most fibre of the section

The fibre everywhere

The neutral fibre of the section

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Theory of Structures
A steel bar 20 mm in diameter simply-supported at its ends over a total span of 40 cm carries a load at its centre. If the maximum stress induced in the bar is limited to N/mm², the bending strain energy stored in the bar, is

611 N mm

711 N mm

511 N mm

411 N mm

611 N mm

711 N mm

511 N mm

411 N mm

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Theory of Structures
A short column (30 cm × 20 cm) carries a load P 1 at 4 cm on one side and another load P2at 8 cm on the other side along a principal section parallel to longer dimension. If the extreme intensity on either side is same, the ratio of P1 to P2 will be

2/3

8/5

3/2

5/8

2/3

8/5

3/2

5/8

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

Proof load

Proof resilience

Stiffness

Proof stress

Proof load

Proof resilience

Stiffness

Proof stress

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Theory of Structures
There are two hinged semicircular arches A, B and C of radii 5 m, 7.5 m and 10 m respectively and each carries a concentrated load W at their crowns. The horizontal thrust at their supports will be in the ratio of

None of these

2 : 1½ : 1

1 : 1½ : 2

1 : 1 : 2

None of these

2 : 1½ : 1

1 : 1½ : 2

1 : 1 : 2

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Theory of Structures
If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

All of these

(3/2)K (1 – 2/m) = N (1 + 1/m)

E = 3K (1 – 2/m)

E = 2N (1 + 1/m)

All of these

(3/2)K (1 – 2/m) = N (1 + 1/m)

E = 3K (1 – 2/m)

E = 2N (1 + 1/m)

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Theory of Structures

Theory of Structures The yield moment of a cross section is defined as the moment that will just produce the yield stress in

Theory of Structures A steel bar 20 mm in diameter simply-supported at its ends over a total span of 40 cm carries a load at its centre. If the maximum stress induced in the bar is limited to N/mm², the bending strain energy stored in the bar, is

Theory of Structures A short column (30 cm × 20 cm) carries a load P 1 at 4 cm on one side and another load P2at 8 cm on the other side along a principal section parallel to longer dimension. If the extreme intensity on either side is same, the ratio of P1 to P2 will be

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

Theory of Structures There are two hinged semicircular arches A, B and C of radii 5 m, 7.5 m and 10 m respectively and each carries a concentrated load W at their crowns. The horizontal thrust at their supports will be in the ratio of

Theory of Structures If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good

Theory of Structures
The yield moment of a cross section is defined as the moment that will just produce the yield stress in

Theory of Structures
A steel bar 20 mm in diameter simply-supported at its ends over a total span of 40 cm carries a load at its centre. If the maximum stress induced in the bar is limited to N/mm², the bending strain energy stored in the bar, is

Theory of Structures
A short column (30 cm × 20 cm) carries a load P 1 at 4 cm on one side and another load P2at 8 cm on the other side along a principal section parallel to longer dimension. If the extreme intensity on either side is same, the ratio of P1 to P2 will be

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

Theory of Structures
There are two hinged semicircular arches A, B and C of radii 5 m, 7.5 m and 10 m respectively and each carries a concentrated load W at their crowns. The horizontal thrust at their supports will be in the ratio of

Theory of Structures
If E, N, K and 1/m are modulus of elasticity, modulus of rigidity. Bulk modulus and Poisson ratio of the material, the following relationship holds good