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

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

None of these

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

(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

None of these

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

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

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RCC Structures Design
Design of R.C.C. cantilever beams, is based on the resultant force at

Fixed end

Mid span

Mid span and fixed support

Free end

Fixed end

Mid span

Mid span and fixed support

Free end

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RCC Structures Design
If L is the effective span of a R.C.C. beam which is subjected to maximum shear qmax at the ends, the distance from either end over which stirrups for the shear, are provided, is

(L/3) (1 - 5/qmax)

(L/2) (1 - 2/qmax)

(L/2) (1 - 3/qmax)

(L/2) (1 - 5/qmax)

(L/3) (1 - 5/qmax)

(L/2) (1 - 2/qmax)

(L/2) (1 - 3/qmax)

(L/2) (1 - 5/qmax)

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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
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

[(r - m)/m] d

[(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

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RCC Structures Design
The maximum ratio of span to depth of a slab simply supported and spanning in one direction, is

25

35

20

30

25

35

20

30

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RCC Structures Design

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

RCC Structures Design Design of R.C.C. cantilever beams, is based on the resultant force at

RCC Structures Design If L is the effective span of a R.C.C. beam which is subjected to maximum shear qmax at the ends, the distance from either end over which stirrups for the shear, are provided, is

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

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 The maximum ratio of span to depth of a slab simply supported and spanning in one direction, is

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

RCC Structures Design
Design of R.C.C. cantilever beams, is based on the resultant force at

RCC Structures Design
If L is the effective span of a R.C.C. beam which is subjected to maximum shear qmax at the ends, the distance from either end over which stirrups for the shear, are provided, is

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

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
The maximum ratio of span to depth of a slab simply supported and spanning in one direction, is