The effective span of a simply supported slab, is

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

Clear span plus effective depth of the slab

None of these

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

Distance between the centers of the bearings

Clear span plus effective depth of the slab

None of these

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

Distance between the centers of the bearings

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

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

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

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

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

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

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

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

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

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RCC Structures Design
Design of a two way slab simply supported on edges and having no provision to prevent the corners from lifting, is made by

Grashoff formula

Rankine formula

Marcus formula

Rankine Grashoff formula

Grashoff formula

Rankine formula

Marcus formula

Rankine Grashoff formula

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RCC Structures Design
The minimum thickness of a flat slab is taken

L/36 for interior panels without drop

L/32 for end panels without drops

L/36 for end panels without drops

All listed here

L/36 for interior panels without drop

L/32 for end panels without drops

L/36 for end panels without drops

All listed here

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RCC Structures Design
If L is the effective span of a R.C.C. beam which is subjected to maximum shear qmax at the ends, the distance from either end over which stirrups for the shear, are provided, is

(L/2) (1 - 5/qmax)

(L/3) (1 - 5/qmax)

(L/2) (1 - 3/qmax)

(L/2) (1 - 2/qmax)

(L/2) (1 - 5/qmax)

(L/3) (1 - 5/qmax)

(L/2) (1 - 3/qmax)

(L/2) (1 - 2/qmax)

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RCC Structures Design
A pile of length ‘L’ carrying a uniformly distributed load ‘W’ per metre length is suspended at two points, the maximum, B.M. at the centre of the pile or at the points of suspension, is

WL²/24

WL²/16

WL/8

WL²/47

WL²/24

WL²/16

WL/8

WL²/47

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RCC Structures Design

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

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

RCC Structures Design Design of a two way slab simply supported on edges and having no provision to prevent the corners from lifting, is made by

RCC Structures Design The minimum thickness of a flat slab is taken

RCC Structures Design If L is the effective span of a R.C.C. beam which is subjected to maximum shear qmax at the ends, the distance from either end over which stirrups for the shear, are provided, is

RCC Structures Design A pile of length ‘L’ carrying a uniformly distributed load ‘W’ per metre length is suspended at two points, the maximum, B.M. at the centre of the pile or at the points of suspension, is

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

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

RCC Structures Design
Design of a two way slab simply supported on edges and having no provision to prevent the corners from lifting, is made by

RCC Structures Design
The minimum thickness of a flat slab is taken

RCC Structures Design
If L is the effective span of a R.C.C. beam which is subjected to maximum shear qmax at the ends, the distance from either end over which stirrups for the shear, are provided, is

RCC Structures Design
A pile of length ‘L’ carrying a uniformly distributed load ‘W’ per metre length is suspended at two points, the maximum, B.M. at the centre of the pile or at the points of suspension, is