The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

Theory of Structures
The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

A distributed load varying from zero at the left end to ? per unit horizontal run at the right end, is ? ?R/?

A uniformly distributed load ? per unit run over its entire span is 4/3 ?R/?

All of these

A uniformly distributed load ? per unit run over its right half span, is ? ?R/?

A distributed load varying from zero at the left end to ? per unit horizontal run at the right end, is ? ?R/?

A uniformly distributed load ? per unit run over its entire span is 4/3 ?R/?

All of these

A uniformly distributed load ? per unit run over its right half span, is ? ?R/?

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Theory of Structures
A body is said to be in equilibrium if

It moves horizontally

It moves vertically

It rotates about its C.G.

None of these

It moves horizontally

It moves vertically

It rotates about its C.G.

None of these

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Theory of Structures
A material is said to be perfectly elastic if

None of these

It regains its original shape partially on removal of the load

It regains its original shape on removal of the load

It does not regain its original shape at all

None of these

It regains its original shape partially on removal of the load

It regains its original shape on removal of the load

It does not regain its original shape at all

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Theory of Structures
A rolled steel joist is simply supported at its ends and carries a uniformly distributed load which causes a maximum deflection of 10 mm and slope at the ends of 0.002 radian. The length of the joist will be,

16 m

15 M

14 M

13 M

16 m

15 M

14 M

13 M

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Theory of Structures
In case of a simply supported I-section beam of span L and loaded with a central load W, the length of elasto-plastic zone of the plastic hinge, is

L/5

L/2

L/3

L/4

L/5

L/2

L/3

L/4

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Theory of Structures
At any point of a beam, the section modulus may be obtained by dividing the moment of inertia of the section by

Maximum tensile stress at the section

Depth of the section

Maximum compressive stress at the section

Depth of the neutral axis

Maximum tensile stress at the section

Depth of the section

Maximum compressive stress at the section

Depth of the neutral axis

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Theory of Structures

Theory of Structures The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

Theory of Structures A body is said to be in equilibrium if

Theory of Structures A material is said to be perfectly elastic if

Theory of Structures A rolled steel joist is simply supported at its ends and carries a uniformly distributed load which causes a maximum deflection of 10 mm and slope at the ends of 0.002 radian. The length of the joist will be,

Theory of Structures In case of a simply supported I-section beam of span L and loaded with a central load W, the length of elasto-plastic zone of the plastic hinge, is

Theory of Structures At any point of a beam, the section modulus may be obtained by dividing the moment of inertia of the section by

Theory of Structures
The horizontal thrust on the ends of a two hinged semicircular arch of radius ‘R’ carrying

Theory of Structures
A body is said to be in equilibrium if

Theory of Structures
A material is said to be perfectly elastic if

Theory of Structures
A rolled steel joist is simply supported at its ends and carries a uniformly distributed load which causes a maximum deflection of 10 mm and slope at the ends of 0.002 radian. The length of the joist will be,

Theory of Structures
In case of a simply supported I-section beam of span L and loaded with a central load W, the length of elasto-plastic zone of the plastic hinge, is

Theory of Structures
At any point of a beam, the section modulus may be obtained by dividing the moment of inertia of the section by