If Ac, Asc and A are areas of concrete, longitudinal steel and section of a R.C.C. column and m and $${\sigma _{\text{c}}}$$ are the modular ratio and maximum stress in the configuration of concrete, the strength of column is A. $${\sigma _{\text{c}}}{{\text{A}}_{\text{c}}} + {\text{m}}{\sigma _{\text{c}}}{{\text{A}}_{{\text{sc}}}}$$ B. $${\sigma _{\text{c}}}\left( {{\text{A}} – {{\text{A}}_{{\text{sc}}}}} \right) + {\text{m}}{\sigma _{\text{c}}}{{\text{A}}_{{\text{sc}}}}$$ C. $${\sigma _{\text{c}}}\left[ {{\text{A}} + \left( {{\text{m}} – 1} \right){{\text{A}}_{{\text{sc}}}}} \right]$$ D. All the above

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The correct answer is $\boxed{\text{C}}$.

The strength of a reinforced concrete column is given by the following equation:

$$\sigma_c = \frac{N}{A}$$

where:

  • $\sigma_c$ is the compressive stress in the concrete
  • $N$ is the axial load on the column
  • $A$ is the cross-sectional area of the column

The modular ratio, $m$, is a dimensionless quantity that is defined as the ratio of the elastic modulus of steel to the elastic modulus of concrete. The maximum stress in the concrete, $\sigma_c$, is given by the following equation:

$$\sigma_c = \frac{f_c’}{m}$$

where:

  • $f_c’$ is the compressive strength of the concrete

The area of concrete, $A_c$, is given by the following equation:

$$A_c = \pi r^2$$

where:

  • $r$ is the radius of the column

The area of longitudinal steel, $A_s$, is given by the following equation:

$$A_s = bh$$

where:

  • $b$ is the width of the column
  • $h$ is the height of the column

Substituting these equations into the equation for the strength of the column, we get the following equation:

$$\sigma_c = \frac{N}{A} = \frac{f_c’}{m} \pi r^2 + \frac{f_y’}{m} bh$$

where:

  • $f_y’$ is the yield strength of the steel

Therefore, the strength of the column is given by the following equation:

$$\sigma_c = \sigma_c\left[ A + \left( m – 1 \right) A_s \right]$$

where:

  • $\sigma_c$ is the maximum stress in the concrete
  • $A$ is the cross-sectional area of the column
  • $A_s$ is the area of longitudinal steel
  • $m$ is the modular ratio