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

All listed here

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

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

All listed here

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

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RCC Structures Design
In a slab, the pitch of the main reinforcement should not exceed its effective depth

Two times

Five times

Three times

Four times

Two times

Five times

Three times

Four times

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RCC Structures Design
According to the steel beam theory of doubly reinforced beams

Tension is resisted by tension steel

Stress in tension steel equals the stress in compression steel

All of the listed here

Compression is resisted by compression steel

Tension is resisted by tension steel

Stress in tension steel equals the stress in compression steel

All of the listed here

Compression is resisted by compression steel

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RCC Structures Design
With usual notations the depth of the neutral axis of a balanced section, is given by

t/mc = (d + n)/n

mc/t = n/(d - n)

mc/t = (d - n)/n

t/mc = (d - n)/n

t/mc = (d + n)/n

mc/t = n/(d - n)

mc/t = (d - n)/n

t/mc = (d - n)/n

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RCC Structures Design
The section of a reinforced beam where most distant concrete fibre in compression and tension in steel attains permissible stresses simultaneously, is called

Balanced section

Critical section

Economic section

All listed here

Balanced section

Critical section

Economic section

All listed here

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RCC Structures Design
The number of treads in a flight is equal to

Risers minus one

Risers in the flight

Risers plus one

None of these

Risers minus one

Risers in the flight

Risers plus one

None of these

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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 In a slab, the pitch of the main reinforcement should not exceed its effective depth

RCC Structures Design According to the steel beam theory of doubly reinforced beams

RCC Structures Design With usual notations the depth of the neutral axis of a balanced section, is given by

RCC Structures Design The section of a reinforced beam where most distant concrete fibre in compression and tension in steel attains permissible stresses simultaneously, is called

RCC Structures Design The number of treads in a flight is equal to

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

RCC Structures Design
In a slab, the pitch of the main reinforcement should not exceed its effective depth

RCC Structures Design
According to the steel beam theory of doubly reinforced beams

RCC Structures Design
With usual notations the depth of the neutral axis of a balanced section, is given by

RCC Structures Design
The section of a reinforced beam where most distant concrete fibre in compression and tension in steel attains permissible stresses simultaneously, is called

RCC Structures Design
The number of treads in a flight is equal to