A flat slab is supported

RCC Structures Design
A flat slab is supported

On columns

On beams

On columns monolithically built with slab

On beams and columns

On columns

On beams

On columns monolithically built with slab

On beams and columns

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

All listed here

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

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

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

All listed here

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
A ribbed slab is provided for

Thermal insulation

Acoustic insulation

A plain ceiling

All of these

Thermal insulation

Acoustic insulation

A plain ceiling

All of these

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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

Marcus formula

Rankine formula

Grashoff formula

Rankine Grashoff formula

Marcus formula

Rankine formula

Grashoff formula

Rankine Grashoff formula

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RCC Structures Design
The load stress of a section can be reduced by

Increasing the total perimeter of bars

Decreasing the lever arm

Replacing larger bars by greater number of small bars

Replacing smaller bars by greater number of greater bars

Increasing the total perimeter of bars

Decreasing the lever arm

Replacing larger bars by greater number of small bars

Replacing smaller bars by greater number of greater bars

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RCC Structures Design
If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

Is increased by Pe/Z

Is increased by PZ/e

Remains unchanged

Is decreased by Pe/Z

Is increased by Pe/Z

Is increased by PZ/e

Remains unchanged

Is decreased by Pe/Z

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RCC Structures Design

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 A ribbed slab is provided for

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 load stress of a section can be reduced by

RCC Structures Design If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge

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
A ribbed slab is provided for

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 load stress of a section can be reduced by

RCC Structures Design
If the tendon is placed at an eccentricity e below the centroidal axis of the longitudinal axis of a rectangular beam (sectional modulus Z and stressed load P in tendon) the stress at the extreme top edge