Rotation 1 Question 5

5. A thin circular plate of mass $M$ and radius $R$ has its density varying as $\rho(r)=\rho _0 r$ with $\rho _0$ as constant and $r$ is the distance from its centre. The moment of inertia of the circular plate about an axis perpendicular to the plate and passing through its edge is $I=a M R^{2}$. The value of the coefficient $a$ is

(a) $\frac{1}{2}$

(b) $\frac{3}{5}$

(c) $\frac{8}{5}$

(d) $\frac{3}{2}$

(2019 Main, 8 April I)

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Answer:

Correct Answer: 5. (*)

Solution:

  1. Consider an elementary ring of thickness $d x$ and radius $x$.

Moment of inertia of this ring about a perpendicular axes through centre is

$$ d I _c=d m \cdot x^{2}=\rho _0 x(2 \pi x) d x \cdot x^{2}=2 \pi \rho _0 x^{4} d x $$

Moment of inertia of this elementary ring about a perpendicular axes at a point through edge, (by parallel axes theorem)

$$ \begin{aligned} d I & =d m x^{2}+d m R^{2} \\ & =2 \pi \rho _0 x^{4} d x+2 \pi \rho _0 R^{2} x^{2} d x \end{aligned} $$

Moment of inertia of complete disc is

$$ \begin{aligned} I & =\int _0^{R} d I=\int _0^{R} 2 \pi \rho _0 x^{4} d x+\int _0^{R} 2 \pi \rho _0 R^{2} x^{2} d x \\ & =\frac{2 \pi \rho _0 R^{5}}{5}+\frac{2 \pi \rho _0 R^{5}}{3}=\frac{16 \pi \rho _0 R^{5}}{15} \\ \therefore \quad a & =\frac{16}{15} \text { (No option matches) } \end{aligned} $$



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