The diameter of main bars in R.C.C. columns, shall not be less than

RCC Structures Design
The diameter of main bars in R.C.C. columns, shall not be less than

12 mm

15 mm

10 mm

11 mm

12 mm

15 mm

10 mm

11 mm

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RCC Structures Design
To have pressure wholly compressive under the base of a retaining wall of width b, the resultant of the weight of the wall and the pressure exerted by the retained, earth should have eccentricity not more than

b/4

b/5

b/6

b/3

b/4

b/5

b/6

b/3

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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

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
‘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 = (A/P) + (M/Z)

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)

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RCC Structures Design
The percentage of minimum reinforcement of the gross sectional area in slabs, is

0.18 %

0.15 %

0.10 %

0.12 %

0.18 %

0.15 %

0.10 %

0.12 %

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RCC Structures Design
Spacing of stirrups in a rectangular beam, is

Kept constant throughout the length

Decreased towards the centre of the beam

Increased at the ends

Increased at the centre of the beam

Kept constant throughout the length

Decreased towards the centre of the beam

Increased at the ends

Increased at the centre of the beam

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RCC Structures Design

RCC Structures Design The diameter of main bars in R.C.C. columns, shall not be less than

RCC Structures Design To have pressure wholly compressive under the base of a retaining wall of width b, the resultant of the weight of the wall and the pressure exerted by the retained, earth should have eccentricity not more than

RCC Structures Design Based on punching shear consideration, the overall depth of a combined footing under a column A, 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 The percentage of minimum reinforcement of the gross sectional area in slabs, is

RCC Structures Design Spacing of stirrups in a rectangular beam, is

RCC Structures Design
The diameter of main bars in R.C.C. columns, shall not be less than

RCC Structures Design
To have pressure wholly compressive under the base of a retaining wall of width b, the resultant of the weight of the wall and the pressure exerted by the retained, earth should have eccentricity not more than

RCC Structures Design
Based on punching shear consideration, the overall depth of a combined footing under a column A, 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
The percentage of minimum reinforcement of the gross sectional area in slabs, is

RCC Structures Design
Spacing of stirrups in a rectangular beam, is