As the percentage of steel increases

RCC Structures Design
As the percentage of steel increases

Depth of neutral axis increases

Depth of neutral axis decreases

Lever arm increases

Lever arm decreases

Depth of neutral axis increases

Depth of neutral axis decreases

Lever arm increases

Lever arm decreases

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RCC Structures Design
A part of the slab may be considered as the flange of the T-beam if

All of the listed here

It is built integrally with the beam

It is effectively bonded together with the beam

Flange has adequate reinforcement transverse to beam

All of the listed here

It is built integrally with the beam

It is effectively bonded together with the beam

Flange has adequate reinforcement transverse to beam

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RCC Structures Design
High strength concrete is used in pre-stressed member

To overcome bursting stresses at the ends

To overcome high bearing stresses developed at the ends

All listed here

To provide high bond stresses

To overcome bursting stresses at the ends

To overcome high bearing stresses developed at the ends

All listed here

To provide high bond stresses

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RCC Structures Design
The reinforced concrete beam which has width 25 cm, lever arm 40 cm, shear force 6t/cm², safe shear stress 5 kg/cm² and B.M. 24 mt,

Is safe in shear

Is over safe in shear

Needs redesigning

Is unsafe in shear

Is safe in shear

Is over safe in shear

Needs redesigning

Is unsafe in shear

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RCC Structures Design
If K is a constant depending upon the ratio of the width of the slab to its effective span l, x is the distance of the concentrated load from the nearer support, bw is the width of the area of contact of the concentrated load measured parallel to the supported edge, the effective width of the slab be is

Kx (1 + x/l) + bw

K/x (1 + x/d) + bw

All listed here

Kx (1 - x/l) + bw

Kx (1 + x/l) + bw

K/x (1 + x/d) + bw

All listed here

Kx (1 - x/l) + bw

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RCC Structures Design
A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

15 cm²

16 cm²

17 cm²

14 cm²

15 cm²

16 cm²

17 cm²

14 cm²

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RCC Structures Design

RCC Structures Design As the percentage of steel increases

RCC Structures Design A part of the slab may be considered as the flange of the T-beam if

RCC Structures Design High strength concrete is used in pre-stressed member

RCC Structures Design The reinforced concrete beam which has width 25 cm, lever arm 40 cm, shear force 6t/cm², safe shear stress 5 kg/cm² and B.M. 24 mt,

RCC Structures Design A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is

RCC Structures Design
As the percentage of steel increases

RCC Structures Design
A part of the slab may be considered as the flange of the T-beam if

RCC Structures Design
High strength concrete is used in pre-stressed member

RCC Structures Design
The reinforced concrete beam which has width 25 cm, lever arm 40 cm, shear force 6t/cm², safe shear stress 5 kg/cm² and B.M. 24 mt,

RCC Structures Design
A simply supported beam 6 m long and of effective depth 50 cm, carries a uniformly distributed load 2400 kg/m including its self weight. If the lever arm factor is 0.85 and permissible tensile stress of steel is 1400 kg/cm², the area of steel required, is