RCC Structures Design

RCC Structures Design
A flat slab is supported

On beams

On beams and columns

On columns

On columns monolithically built with slab

On beams

On beams and columns

On columns

On columns monolithically built with slab

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RCC Structures Design
If the maximum shear stress at the end of a simply supported R.C.C. beam of 16 m effective span is 10 kg/cm², the length of the beam having nominal reinforcement, is

12 cm

6 cm

8 cm

10 cm

12 cm

6 cm

8 cm

10 cm

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RCC Structures Design
The modular ratio ‘m’ of a concrete whose permissible compressive stress is ‘C’, may be obtained from the equation.

m = 1400/3C

m = 700/3C

m = 2800/3C

m = 3500/3C

m = 1400/3C

m = 700/3C

m = 2800/3C

m = 3500/3C

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RCC Structures Design
If longitudinally spanning stairs are casted along with their landings, the maximum bending moment per metre width, is taken as

\frac{w l^{2}}{4}

\frac{w l^{2}}{12}

\frac{w l^{2}}{10}

\frac{w l^{2}}{8}

$\frac{w l^{2}}{4}$

$\frac{w l^{2}}{12}$

$\frac{w l^{2}}{10}$

$\frac{w l^{2}}{8}$

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RCC Structures Design
The zone in which transverse bending is likely to occur may be obtained by drawing a line from the faces of the column making an angle θ° with horizontal where θ° is

30°

45°

60°

None of these

30°

45°

60°

None of these

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RCC Structures Design
With usual notations the depth of the neutral axis of a balanced section, is given by

mc/t = (d - n)/n

t/mc = (d + n)/n

t/mc = (d - n)/n

mc/t = n/(d - n)

mc/t = (d - n)/n

t/mc = (d + n)/n

t/mc = (d - n)/n

mc/t = n/(d - n)

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