The load stress of a section can be reduced by

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

Replacing larger bars by greater number of small bars

Replacing smaller bars by greater number of greater bars

Decreasing the lever arm

Increasing the total perimeter of bars

Replacing larger bars by greater number of small bars

Replacing smaller bars by greater number of greater bars

Decreasing the lever arm

Increasing the total perimeter of bars

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RCC Structures Design
If the modular ratio is ‘m’, steel ratio is ‘r’ and overall depth of a beam is ‘d’, the depth of the critical neutral axis of the beam, is

[m/(m - r)] d

[(m + r)/m] d

[(r - m)/m] d

[m/(m + r)] d

[m/(m - r)] d

[(m + r)/m] d

[(r - m)/m] d

[m/(m + r)] d

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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
Top bars are extended to the projecting parts of the combined footing of two columns L distance apart for a distance of

Half the distance of projection

0.1 L from the centre edge of column

One-fourth the distance of projection

0.1 L from the outer edge of column

Half the distance of projection

0.1 L from the centre edge of column

One-fourth the distance of projection

0.1 L from the outer edge of column

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RCC Structures Design
If a rectangular pre-stressed beam of an effective span of 5 meters and carrying a total load 3840 kg/m, is designed by the load balancing method, the central dip of the parabolic tendon should be

15 cm

10 cm

20 cm

5 cm

15 cm

10 cm

20 cm

5 cm

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RCC Structures Design
According to I.S. : 456 specifications, the safe diagonal tensile stress for M 150 grade concrete, is

10 kg/cm²

20 kg/cm²

15 kg/cm²

5 kg/cm²

10 kg/cm²

20 kg/cm²

15 kg/cm²

5 kg/cm²

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RCC Structures Design

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

RCC Structures Design If the modular ratio is ‘m’, steel ratio is ‘r’ and overall depth of a beam is ‘d’, the depth of the critical neutral axis of the beam, is

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 Top bars are extended to the projecting parts of the combined footing of two columns L distance apart for a distance of

RCC Structures Design If a rectangular pre-stressed beam of an effective span of 5 meters and carrying a total load 3840 kg/m, is designed by the load balancing method, the central dip of the parabolic tendon should be

RCC Structures Design According to I.S. : 456 specifications, the safe diagonal tensile stress for M 150 grade concrete, is

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

RCC Structures Design
If the modular ratio is ‘m’, steel ratio is ‘r’ and overall depth of a beam is ‘d’, the depth of the critical neutral axis of the beam, is

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
Top bars are extended to the projecting parts of the combined footing of two columns L distance apart for a distance of

RCC Structures Design
If a rectangular pre-stressed beam of an effective span of 5 meters and carrying a total load 3840 kg/m, is designed by the load balancing method, the central dip of the parabolic tendon should be

RCC Structures Design
According to I.S. : 456 specifications, the safe diagonal tensile stress for M 150 grade concrete, is