The load stress of a section can be reduced by

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

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

Increasing the total perimeter of bars

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RCC Structures Design
If p₁ and p₂ are effective lateral loadings at the bottom and top exerted by a level earth subjected to a super-load on the vertical face of height h of a retaining wall, the horizontal pressure p per unit length of the wall, is

[(p₁ + p₂)/4] h

[(p₁ - p₂)/2] h

[(p₁ + p₂)/2] h

(p₁ - p₂) ⅔h

[(p₁ + p₂)/4] h

[(p₁ - p₂)/2] h

[(p₁ + p₂)/2] h

(p₁ - p₂) ⅔h

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RCC Structures Design
After pre-stressing process is completed, a loss of stress is due to

Shrinkage of concrete

Elastic shortening of concrete

All of the listed here

Creep of concrete

Shrinkage of concrete

Elastic shortening of concrete

All of the listed here

Creep of concrete

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RCC Structures Design
If W is the load on a circular slab of radius R, the maximum circumferential moment at the centre of the slab, is

2WR²/16

WR²/16

Zero

3WR²/16

2WR²/16

WR²/16

Zero

3WR²/16

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RCC Structures Design
‘P’ is the pre-stressed force applied to the tendon of a rectangular pre-stressed beam whose area of cross section is ‘A’ and sectional modulus is ‘Z’. The maximum stress ‘f’ in the beam, subjected to a maximum bending moment ‘M’, is

f = (P/A) + (M/6Z)

f = (P/A) + (M/Z)

f = (P/'+ (Z/M)

f = (A/P) + (M/Z)

f = (P/A) + (M/6Z)

f = (P/A) + (M/Z)

f = (P/'+ (Z/M)

f = (A/P) + (M/Z)

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RCC Structures Design
Distribution reinforcement in a simply supported slab, is provided to distribute

All listed here

Shrinkage stress

Temperature stress

Load

All listed here

Shrinkage stress

Temperature stress

Load

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RCC Structures Design

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

RCC Structures Design If p₁ and p₂ are effective lateral loadings at the bottom and top exerted by a level earth subjected to a super-load on the vertical face of height h of a retaining wall, the horizontal pressure p per unit length of the wall, is

RCC Structures Design After pre-stressing process is completed, a loss of stress is due to

RCC Structures Design If W is the load on a circular slab of radius R, the maximum circumferential moment at the centre of the slab, is

RCC Structures Design ‘P’ is the pre-stressed force applied to the tendon of a rectangular pre-stressed beam whose area of cross section is ‘A’ and sectional modulus is ‘Z’. The maximum stress ‘f’ in the beam, subjected to a maximum bending moment ‘M’, is

RCC Structures Design Distribution reinforcement in a simply supported slab, is provided to distribute

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

RCC Structures Design
If p₁ and p₂ are effective lateral loadings at the bottom and top exerted by a level earth subjected to a super-load on the vertical face of height h of a retaining wall, the horizontal pressure p per unit length of the wall, is

RCC Structures Design
After pre-stressing process is completed, a loss of stress is due to

RCC Structures Design
If W is the load on a circular slab of radius R, the maximum circumferential moment at the centre of the slab, is

RCC Structures Design
‘P’ is the pre-stressed force applied to the tendon of a rectangular pre-stressed beam whose area of cross section is ‘A’ and sectional modulus is ‘Z’. The maximum stress ‘f’ in the beam, subjected to a maximum bending moment ‘M’, is

RCC Structures Design
Distribution reinforcement in a simply supported slab, is provided to distribute