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 weight of a retaining wall and ‘P’ is the horizontal earth pressure, the factor of safety against sliding, is

1.0

1.5

3.0

2.0

1.0

1.5

3.0

2.0

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RCC Structures Design
Enlarged head of a supporting column of a flat slab is technically known as

Capital

Drop panel

Supporting end of the column

Top of the column

Capital

Drop panel

Supporting end of the column

Top of the column

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RCC Structures Design
If d and n are the effective depth and depth of the neutral axis respectively of a singly reinforced beam, the lever arm of the beam, is

d - n/3

d + n/3

n

d

d - n/3

d + n/3

n

d

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RCC Structures Design
If p1 is the vertical intensity of pressure at a depth h on a block of earth weighing w per unit volume and the angle of repose φ, the lateral intensity of pressure p2 is

wh (1 - sin φ)/(1 + sin φ)

w (1 - cos φ)/h (1 + sin φ)

wh (1 - tan φ)/(1 + tan φ)

wh (1 - cos φ)/(1 + sin φ)

wh (1 - sin φ)/(1 + sin φ)

w (1 - cos φ)/h (1 + sin φ)

wh (1 - tan φ)/(1 + tan φ)

wh (1 - cos φ)/(1 + sin φ)

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RCC Structures Design
A flat slab is supported

On columns monolithically built with slab

On beams

On columns

On beams and columns

On columns monolithically built with slab

On beams

On columns

On beams and columns

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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 If ‘W’ is weight of a retaining wall and ‘P’ is the horizontal earth pressure, the factor of safety against sliding, is

RCC Structures Design Enlarged head of a supporting column of a flat slab is technically known as

RCC Structures Design If d and n are the effective depth and depth of the neutral axis respectively of a singly reinforced beam, the lever arm of the beam, is

RCC Structures Design If p1 is the vertical intensity of pressure at a depth h on a block of earth weighing w per unit volume and the angle of repose φ, the lateral intensity of pressure p2 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
If ‘W’ is weight of a retaining wall and ‘P’ is the horizontal earth pressure, the factor of safety against sliding, is

RCC Structures Design
Enlarged head of a supporting column of a flat slab is technically known as

RCC Structures Design
If d and n are the effective depth and depth of the neutral axis respectively of a singly reinforced beam, the lever arm of the beam, is

RCC Structures Design
If p1 is the vertical intensity of pressure at a depth h on a block of earth weighing w per unit volume and the angle of repose φ, the lateral intensity of pressure p2 is

RCC Structures Design
A flat slab is supported