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 fibre everywhere

The neutral fibre of the section

The inner most fibre of the section

The outer most fibre of the section

The fibre everywhere

The neutral fibre of the section

The inner most fibre of the section

The outer most fibre of the section

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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 uniformly distributed load w/unit length

An isolated load at mid span

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

None of these

A uniformly distributed load w/unit length

An isolated load at mid span

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

None of these

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Theory of Structures
A lift of weight W is lifted by a rope with an acceleration f. If the area of cross-section of the rope is A, the stress in the rope is

[W (2 + g/f)]/A

[W (2 + f/G)]/A

(1 – g/f)/A

[W (1 + f/ G)]/ A

[W (2 + g/f)]/A

[W (2 + f/G)]/A

(1 – g/f)/A

[W (1 + f/ G)]/ A

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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

All of these

Brass experiences compressive force

Steel experiences tensile force

Composite beam gets subjected to a couple

All of these

Brass experiences compressive force

Steel experiences tensile force

Composite beam gets subjected to a couple

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Theory of Structures
The equivalent length of a column of length L having one end fixed and the other end free, is

2L

L/2

L

2L

L/2

L

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Theory of Structures
constant, depth of a cantilever of length of uniform strength loaded with Keeping breadth uniformly distributed load varies from zero at the free end and

2w w l at the fixed end

3w l at the fixed end

l) at the fixed end

w l) at the fixed end

2w w l at the fixed end

3w l at the fixed end

l) at the fixed end

w l) at the fixed end

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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 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 lift of weight W is lifted by a rope with an acceleration f. If the area of cross-section of the rope is A, the stress in the rope is

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 equivalent length of a column of length L having one end fixed and the other end free, is

Theory of Structures constant, depth of a cantilever of length of uniform strength loaded with Keeping breadth uniformly distributed load varies from zero at the free end and

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
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 lift of weight W is lifted by a rope with an acceleration f. If the area of cross-section of the rope is A, the stress in the rope is

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 equivalent length of a column of length L having one end fixed and the other end free, is

Theory of Structures
constant, depth of a cantilever of length of uniform strength loaded with Keeping breadth uniformly distributed load varies from zero at the free end and