Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

RCC Structures Design
Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

Supports

Mid span

Quarter span

Every section

Supports

Mid span

Quarter span

Every section

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RCC Structures Design
A pre-stressed concrete member is preferred because

Removal of cracks in the members due to shrinkage

All listed here

Large size of long beams carrying large shear force need not be adopted

Its dimensions are not decided from the diagonal tensile stress

Removal of cracks in the members due to shrinkage

All listed here

Large size of long beams carrying large shear force need not be adopted

Its dimensions are not decided from the diagonal tensile stress

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RCC Structures Design
A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

½ n₁ (1 - n₁/3) cbd²

All listed here

bn (fc/2) (d - n/3)

Atft (d - n/3)

½ n₁ (1 - n₁/3) cbd²

All listed here

bn (fc/2) (d - n/3)

Atft (d - n/3)

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RCC Structures Design
To ensure uniform pressure distribution, the thickness of the foundation, is

Kept zero at the edge

Kept uniform throughout

Decreased gradually towards the edge

Increased gradually towards the edge

Kept zero at the edge

Kept uniform throughout

Decreased gradually towards the edge

Increased gradually towards the edge

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RCC Structures Design
If the maximum shear stress at the end of a simply supported R.C.C. beam of 6 m effective span is 10 kg/cm², the share stirrups are provided for a distance ‘x’ from either end where, ‘x’ is

150 cm

200 cm

50 cm

100 cm

150 cm

200 cm

50 cm

100 cm

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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 + r)/m] d

[m/(m - r)] d

[m/(m + r)] d

[(r - m)/m] d

[(m + r)/m] d

[m/(m - r)] d

[m/(m + r)] d

[(r - m)/m] d

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RCC Structures Design

RCC Structures Design Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

RCC Structures Design A pre-stressed concrete member is preferred because

RCC Structures Design A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

RCC Structures Design To ensure uniform pressure distribution, the thickness of the foundation, is

RCC Structures Design If the maximum shear stress at the end of a simply supported R.C.C. beam of 6 m effective span is 10 kg/cm², the share stirrups are provided for a distance ‘x’ from either end where, ‘x’ is

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
Design of R.C.C. simply supported beams carrying U.D.L. is based on the resultant B.M. at

RCC Structures Design
A pre-stressed concrete member is preferred because

RCC Structures Design
A singly reinforced beam has breadth b, effective depth d, depth of neutral axis n and critical neutral axis n?. If fc and ft are permissible compressive and tensile stresses, the moment to resistance of the beam, is

RCC Structures Design
To ensure uniform pressure distribution, the thickness of the foundation, is

RCC Structures Design
If the maximum shear stress at the end of a simply supported R.C.C. beam of 6 m effective span is 10 kg/cm², the share stirrups are provided for a distance ‘x’ from either end where, ‘x’ is

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