In a beam the local bond stress Sb, is equal to

RCC Structures Design
In a beam the local bond stress Sb, is equal to

Leaver arm/(Bending moment × Total perimeter of reinforcement)

Total perimeter of reinforcement/(Leaver arm × Shear force)

Leaver arm/(Shear force × Total perimeter of reinforcement)

Shear force/(Leaver arm × Total perimeter of reinforcement)

Leaver arm/(Bending moment × Total perimeter of reinforcement)

Total perimeter of reinforcement/(Leaver arm × Shear force)

Leaver arm/(Shear force × Total perimeter of reinforcement)

Shear force/(Leaver arm × Total perimeter of reinforcement)

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RCC Structures Design
The neutral axis of a T-beam exists

All listed here

At the bottom edge of the slab

Within the flange

Below the slab

All listed here

At the bottom edge of the slab

Within the flange

Below the slab

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RCC Structures Design
Steel bars are generally connected together to get greater length than the standard length by providing

All listed here

Straight bar splice

Hooked splice

Dowel splice

All listed here

Straight bar splice

Hooked splice

Dowel splice

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RCC Structures Design
To have pressure wholly compressive under the base of a retaining wall of width b, the resultant of the weight of the wall and the pressure exerted by the retained, earth should have eccentricity not more than

b/4

b/6

b/5

b/3

b/4

b/6

b/5

b/3

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RCC Structures Design
If depth of slab is 10 cm, width of web 30 cm, depth of web 50 cm, centre to centre distance of beams 3 m, effective span of beams 6 m, the effective flange width of the beam, is

150 cm

300 cm

100 cm

200 cm

150 cm

300 cm

100 cm

200 cm

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RCC Structures Design
An R.C.C. roof slab is designed as a two way slab if

It supports live loads in both directions

The slab is discontinuous at edges

The slab is continuous over two supports

The ratio of spans in two directions is less than 2

It supports live loads in both directions

The slab is discontinuous at edges

The slab is continuous over two supports

The ratio of spans in two directions is less than 2

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RCC Structures Design

RCC Structures Design In a beam the local bond stress Sb, is equal to

RCC Structures Design The neutral axis of a T-beam exists

RCC Structures Design Steel bars are generally connected together to get greater length than the standard length by providing

RCC Structures Design To have pressure wholly compressive under the base of a retaining wall of width b, the resultant of the weight of the wall and the pressure exerted by the retained, earth should have eccentricity not more than

RCC Structures Design If depth of slab is 10 cm, width of web 30 cm, depth of web 50 cm, centre to centre distance of beams 3 m, effective span of beams 6 m, the effective flange width of the beam, is

RCC Structures Design An R.C.C. roof slab is designed as a two way slab if

RCC Structures Design
In a beam the local bond stress Sb, is equal to

RCC Structures Design
The neutral axis of a T-beam exists

RCC Structures Design
Steel bars are generally connected together to get greater length than the standard length by providing

RCC Structures Design
To have pressure wholly compressive under the base of a retaining wall of width b, the resultant of the weight of the wall and the pressure exerted by the retained, earth should have eccentricity not more than

RCC Structures Design
If depth of slab is 10 cm, width of web 30 cm, depth of web 50 cm, centre to centre distance of beams 3 m, effective span of beams 6 m, the effective flange width of the beam, is

RCC Structures Design
An R.C.C. roof slab is designed as a two way slab if