If the maximum bending moment of a simply supported slab is M Kg.cm, the effective depth of the slab is (where Q is M.R. factor)

RCC Structures Design
If the maximum bending moment of a simply supported slab is M Kg.cm, the effective depth of the slab is (where Q is M.R. factor)

M/10√Q

M/100Q

√(M/100Q)

√(M/Q)

M/10√Q

M/100Q

√(M/100Q)

√(M/Q)

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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

10 cm

8 cm

6 cm

12 cm

10 cm

8 cm

6 cm

12 cm

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RCC Structures Design
Bottom bars under the columns are extended into the interior of the footing slab to a distance greater than

42 diameters from the outer edge of the column

24 diameters from the centre of the column

42 diameters from the centre of the column

42 diameters from the inner edge of the column

42 diameters from the outer edge of the column

24 diameters from the centre of the column

42 diameters from the centre of the column

42 diameters from the inner edge of the column

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RCC Structures Design
In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

(m + c)/t = n/(d + n)

(t + c)/n = (d + n)/n

mc/t = n/(d - n)

mc/t = (d - n)/t

(m + c)/t = n/(d + n)

(t + c)/n = (d + n)/n

mc/t = n/(d - n)

mc/t = (d - n)/t

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RCC Structures Design
The spacing of transverse reinforcement of column is decided by the following consideration.

Forty-eight times the diameter of transverse reinforcement

The least lateral dimension of the column

Sixteen times the diameter of the smallest longitudinal reinforcing rods in the column

All listed here

Forty-eight times the diameter of transverse reinforcement

The least lateral dimension of the column

Sixteen times the diameter of the smallest longitudinal reinforcing rods in the column

All listed here

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RCC Structures Design
The maximum area of tension reinforcement in beams shall not exceed

6

1

4 %

0.15 %

6

1

4 %

0.15 %

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RCC Structures Design

RCC Structures Design If the maximum bending moment of a simply supported slab is M Kg.cm, the effective depth of the slab is (where Q is M.R. factor)

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

RCC Structures Design Bottom bars under the columns are extended into the interior of the footing slab to a distance greater than

RCC Structures Design In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

RCC Structures Design The spacing of transverse reinforcement of column is decided by the following consideration.

RCC Structures Design The maximum area of tension reinforcement in beams shall not exceed

RCC Structures Design
If the maximum bending moment of a simply supported slab is M Kg.cm, the effective depth of the slab is (where Q is M.R. factor)

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

RCC Structures Design
Bottom bars under the columns are extended into the interior of the footing slab to a distance greater than

RCC Structures Design
In a doubly-reinforced beam if ‘c’ and ‘t’ are stresses in concrete and tension reinforcement, ‘d’ is the effective depth and ‘n’ is depth of critical neutral axis, the following relationship holds good

RCC Structures Design
The spacing of transverse reinforcement of column is decided by the following consideration.

RCC Structures Design
The maximum area of tension reinforcement in beams shall not exceed