Question

A carpet of mass $m$ made of inextensible material is rolled along its length in the form of a cylinder of radius $r$ and kept on a rough floor. The decrease in the potential energy of the system, when the carpet is unrolled to a radius $\frac{r}{2}$ without sliding is $(g=$ acceleration due to gravity)

• A. $\frac{3}{4}mgr$
• B. $\frac{5}{8}mgr$
• C. $\frac{7}{8}mgr$
• D. $\frac{1}{2}mgr$

Answer 1

The Correct Option is B

The centre of mass of the whole carpet is originally at a height R above the floor. When the carpet unrolls itself and has a radius R/2, the centre of mass is at a height R/2. The mass left over unrolled is $\frac{M\pi\left(R / 2\right)^{2}}{\pi R^{2}}=\frac{M}{4}$ Decrease in potential energy $MgR-\left(\frac{M}{4}\right)g\left(\frac{R}{2}\right)=\frac{7}{8}MgR$Density $\sigma=\frac{M}{\pi r_{2}}=\frac{M_{1}}{\pi\left(\frac{r}{2}\right)^{2}}$ or $ M_{1}=\frac{M}{4} $ Potential energy $ U_{1}=$M g r and $U_{2}=M_{1} g \frac{r}{2}=\frac{M}{4} g \frac{r}{2}$ The decrease in the potential energy of the system $\Delta U =U_{1}-U_{2} $ $=M g r-\frac{M g r}{8} $ $=\frac{7 M g r}{8}$