The maximum ratio of span to depth of a cantilever slab, is

RCC Structures Design
The maximum ratio of span to depth of a cantilever slab, is

8

12

16

10

8

12

16

10

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RCC Structures Design
If C is creep coefficient, f is original pre-stress in concrete, m is modular ratio, E is Young's modulus of steel and e is shrinkage strain, the combined effect of creep and shrinkage is:

(1 - C) mf + eE

(C - 1) mf - eE

(1 - C) mf - eE

(C - 1) mf + eE

(1 - C) mf + eE

(C - 1) mf - eE

(1 - C) mf - eE

(C - 1) mf + eE

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RCC Structures Design
The amount of reinforcement for main bars in a slab, is based upon

Maximum shear force

Maximum bending moment

Minimum bending moment

Minimum shear force

Maximum shear force

Maximum bending moment

Minimum bending moment

Minimum shear force

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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

0.1 L from the outer edge of column

0.1 L from the centre edge of column

Half the distance of projection

One-fourth the distance of projection

0.1 L from the outer edge of column

0.1 L from the centre edge of column

Half the distance of projection

One-fourth the distance of projection

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RCC Structures Design
Based on punching shear consideration, the overall depth of a combined footing under a column A, is

(Area of the column A × Safe punching stress)/Load on column A

(Perimeter of column A × Safe punching stress)/(Load on column A + Upward pressure × Area of the column)

None of these

(Perimeter of column A × Safe punching stress)/(Load on column A × Upward pressure × Area of the column)

(Area of the column A × Safe punching stress)/Load on column A

(Perimeter of column A × Safe punching stress)/(Load on column A + Upward pressure × Area of the column)

None of these

(Perimeter of column A × Safe punching stress)/(Load on column A × Upward pressure × Area of the column)

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RCC Structures Design
If Sb, is the average bond stress on a bar of diameter ‘d’ subjected to maximum stress ‘t’, the length of the embedment ‘l’ is given by

l = dt/3Sb

l = dt/2Sb

l = dt/Sb

l = dt/4Sb

l = dt/3Sb

l = dt/2Sb

l = dt/Sb

l = dt/4Sb

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RCC Structures Design

RCC Structures Design The maximum ratio of span to depth of a cantilever slab, is

RCC Structures Design If C is creep coefficient, f is original pre-stress in concrete, m is modular ratio, E is Young's modulus of steel and e is shrinkage strain, the combined effect of creep and shrinkage is:

RCC Structures Design The amount of reinforcement for main bars in a slab, is based upon

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 Based on punching shear consideration, the overall depth of a combined footing under a column A, is

RCC Structures Design If Sb, is the average bond stress on a bar of diameter ‘d’ subjected to maximum stress ‘t’, the length of the embedment ‘l’ is given by

RCC Structures Design
The maximum ratio of span to depth of a cantilever slab, is

RCC Structures Design
If C is creep coefficient, f is original pre-stress in concrete, m is modular ratio, E is Young's modulus of steel and e is shrinkage strain, the combined effect of creep and shrinkage is:

RCC Structures Design
The amount of reinforcement for main bars in a slab, is based upon

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
Based on punching shear consideration, the overall depth of a combined footing under a column A, is

RCC Structures Design
If Sb, is the average bond stress on a bar of diameter ‘d’ subjected to maximum stress ‘t’, the length of the embedment ‘l’ is given by