The weight of a foundation is assumed as

RCC Structures Design
The weight of a foundation is assumed as

7% of wall weight

5% of wall weight

10% of wall weight

12% of wall weight

7% of wall weight

5% of wall weight

10% of wall weight

12% of wall weight

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RCC Structures Design
Steel beam theory is used for

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

Doubly reinforced beams ignoring compressive stress in concrete

Design of simple steel beams

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RCC Structures Design
If jd is the lever arm and ΣO is the total perimeter of reinforcement of an R.C.C. beam, the bond stress at the section having Q shear force, is

Q/2jdƩO

Q/jdƩO

Q/3jdƩO

2 × Q/jdƩO

Q/2jdƩO

Q/jdƩO

Q/3jdƩO

2 × Q/jdƩO

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RCC Structures Design
A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

½ n₁ (1 - n₁/3) cbd²

bn (fc/2) (d - n/3)

All listed here

Atft (d - n/3)

½ n₁ (1 - n₁/3) cbd²

bn (fc/2) (d - n/3)

All listed here

Atft (d - n/3)

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RCC Structures Design
For the design of a simply supported T-beam the ratio of the effective span to the overall depth of the beam is limited to

15

10

20

25

15

10

20

25

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RCC Structures Design
The effective span of a simply supported slab, is

Clear span plus effective depth of the slab

Clear distance between the inner faces of the walls plus twice the thickness of the wall

None of these

Distance between the centers of the bearings

Clear span plus effective depth of the slab

Clear distance between the inner faces of the walls plus twice the thickness of the wall

None of these

Distance between the centers of the bearings

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RCC Structures Design

RCC Structures Design The weight of a foundation is assumed as

RCC Structures Design Steel beam theory is used for

RCC Structures Design If jd is the lever arm and ΣO is the total perimeter of reinforcement of an R.C.C. beam, the bond stress at the section having Q shear force, is

RCC Structures Design A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

RCC Structures Design For the design of a simply supported T-beam the ratio of the effective span to the overall depth of the beam is limited to

RCC Structures Design The effective span of a simply supported slab, is

RCC Structures Design
The weight of a foundation is assumed as

RCC Structures Design
Steel beam theory is used for

RCC Structures Design
If jd is the lever arm and ΣO is the total perimeter of reinforcement of an R.C.C. beam, the bond stress at the section having Q shear force, is

RCC Structures Design
A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

RCC Structures Design
For the design of a simply supported T-beam the ratio of the effective span to the overall depth of the beam is limited to

RCC Structures Design
The effective span of a simply supported slab, is