If the depth of actual neutral axis of a doubly reinforced beam

RCC Structures Design
If the depth of actual neutral axis of a doubly reinforced beam

Is less than the depth of critical neutral axis, the steel in the tensile zone attains its maximum stress earlier

Is equal to the depth of critical neutral axis; the concrete and steel attain their maximum stresses simultaneously

All listed here

Is greater than the depth of critical neutral axis, the concrete attains its maximum stress earlier

Is less than the depth of critical neutral axis, the steel in the tensile zone attains its maximum stress earlier

Is equal to the depth of critical neutral axis; the concrete and steel attain their maximum stresses simultaneously

All listed here

Is greater than the depth of critical neutral axis, the concrete attains its maximum stress earlier

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RCC Structures Design
If W is total load per unit area on a panel, D is the diameter of the column head, L is the span in two directions, then the sum of the maximum positive bending moment and average of the negative bending moment for the design of the span of a square flat slab, should not be less than

WL/10 (L - 2D/3)²

WL/10 (L + 2D/3)²

WL/12 (L - D/3)²

WL/12 (L - 2D/3)²

WL/10 (L - 2D/3)²

WL/10 (L + 2D/3)²

WL/12 (L - D/3)²

WL/12 (L - 2D/3)²

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RCC Structures Design
The effective width of a column strip of a flat slab, is

One-fourth the width of the panel

Diameter of the column

Half the width of the panel

Radius of the column

One-fourth the width of the panel

Diameter of the column

Half the width of the panel

Radius of the column

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RCC Structures Design
The steel generally used in R.C.C. work, is

Mild steel

High carbon steel

High tension steel

Stainless

Mild steel

High carbon steel

High tension steel

Stainless

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RCC Structures Design
If l₁ and l₂ are the lengths of long and short spans of a two way slab simply supported on four edges and carrying a load w per unit area, the ratio of the loads split into w₁ and w₂ acting on strips parallel to l₂ and l₁ is

w₁/w₂ = (l₂/l₁)⁴

w₁/w₂ = (l₂/l₁)²

w₁/w₂ = l₂/l₁

w₁/w₂ = (l₂/l₁)³

w₁/w₂ = (l₂/l₁)⁴

w₁/w₂ = (l₂/l₁)²

w₁/w₂ = l₂/l₁

w₁/w₂ = (l₂/l₁)³

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RCC Structures Design
A flat slab is supported

On beams and columns

On columns

On columns monolithically built with slab

On beams

On beams and columns

On columns

On columns monolithically built with slab

On beams

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RCC Structures Design

RCC Structures Design If the depth of actual neutral axis of a doubly reinforced beam

RCC Structures Design The effective width of a column strip of a flat slab, is

RCC Structures Design The steel generally used in R.C.C. work, is

RCC Structures Design If l₁ and l₂ are the lengths of long and short spans of a two way slab simply supported on four edges and carrying a load w per unit area, the ratio of the loads split into w₁ and w₂ acting on strips parallel to l₂ and l₁ is

RCC Structures Design A flat slab is supported

RCC Structures Design
If the depth of actual neutral axis of a doubly reinforced beam

RCC Structures Design
The effective width of a column strip of a flat slab, is

RCC Structures Design
The steel generally used in R.C.C. work, is

RCC Structures Design
If l₁ and l₂ are the lengths of long and short spans of a two way slab simply supported on four edges and carrying a load w per unit area, the ratio of the loads split into w₁ and w₂ acting on strips parallel to l₂ and l₁ is

RCC Structures Design
A flat slab is supported