Total pressure on the vertical face of a retaining wall of height ‘h’ per unit run exerted by the retained earth weighing ‘w’ per unit volume, is

RCC Structures Design
Total pressure on the vertical face of a retaining wall of height ‘h’ per unit run exerted by the retained earth weighing ‘w’ per unit volume, is

wh² [(1 - sin φ)/(1 + sin φ)]

wh² [(1 - sin φ)/2(1 + sin φ)]

wh² [(1 - sin φ)/3(1 + sin φ)]

wh [(1 - sin φ)/(1 + sin φ)]

wh² [(1 - sin φ)/(1 + sin φ)]

wh² [(1 - sin φ)/2(1 + sin φ)]

wh² [(1 - sin φ)/3(1 + sin φ)]

wh [(1 - sin φ)/(1 + sin φ)]

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RCC Structures Design
To ensure uniform pressure distribution, the thickness of the foundation, is

Decreased gradually towards the edge

Increased gradually towards the edge

Kept zero at the edge

Kept uniform throughout

Decreased gradually towards the edge

Increased gradually towards the edge

Kept zero at the edge

Kept uniform throughout

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RCC Structures Design
In the zone of R.C.C. beam where shear stress is less than 5 kg/cm², nominal reinforcement is provided at a pitch of

One-half lever arm of the section

One and half lever arm of the section

One-third lever arm of the section

Lever arm of the section

One-half lever arm of the section

One and half lever arm of the section

One-third lever arm of the section

Lever arm of the section

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RCC Structures Design
If the length of an intermediate span of a continuous slab is 5 m, the length of the end span is kept

4.7 m

4.0 m

4.1 m

4.5 m

4.7 m

4.0 m

4.1 m

4.5 m

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RCC Structures Design
According to the steel beam theory of doubly reinforced beams

All of the listed here

Stress in tension steel equals the stress in compression steel

Compression is resisted by compression steel

Tension is resisted by tension steel

All of the listed here

Stress in tension steel equals the stress in compression steel

Compression is resisted by compression steel

Tension is resisted by tension steel

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RCC Structures Design
Steel beam theory is used for

Doubly reinforced beams ignoring compressive stress in concrete

Design of simple steel beams

Beams if shear exceeds 4 times allowable shear stress

Steel beams encased in concrete

Doubly reinforced beams ignoring compressive stress in concrete

Design of simple steel beams

Beams if shear exceeds 4 times allowable shear stress

Steel beams encased in concrete

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RCC Structures Design

RCC Structures Design Total pressure on the vertical face of a retaining wall of height ‘h’ per unit run exerted by the retained earth weighing ‘w’ per unit volume, is

RCC Structures Design To ensure uniform pressure distribution, the thickness of the foundation, is

RCC Structures Design In the zone of R.C.C. beam where shear stress is less than 5 kg/cm², nominal reinforcement is provided at a pitch of

RCC Structures Design If the length of an intermediate span of a continuous slab is 5 m, the length of the end span is kept

RCC Structures Design According to the steel beam theory of doubly reinforced beams

RCC Structures Design Steel beam theory is used for

RCC Structures Design
Total pressure on the vertical face of a retaining wall of height ‘h’ per unit run exerted by the retained earth weighing ‘w’ per unit volume, is

RCC Structures Design
To ensure uniform pressure distribution, the thickness of the foundation, is

RCC Structures Design
In the zone of R.C.C. beam where shear stress is less than 5 kg/cm², nominal reinforcement is provided at a pitch of

RCC Structures Design
If the length of an intermediate span of a continuous slab is 5 m, the length of the end span is kept

RCC Structures Design
According to the steel beam theory of doubly reinforced beams

RCC Structures Design
Steel beam theory is used for