91Ó°ÊÓ

• The coefficient of volumetric expansion of the aluminum is\(\beta = 75 \times {10^{ - 6}}\;{\rm{/^\circ C}}\).
• The final temperature of the aluminum sphere is\({T_f} = 160^\circ {\rm{C}}\).
• The initial temperature of the aluminum sphere is\({T_i} = 30^\circ {\rm{C}}\).
• The diameter of the aluminum sphere is \({d_i} = 8.75{\rm{ cm}}\).

The percentage change in the volume of the sphere is the ratio of the change in its volume to its original volume.

The change in the volume of the sphere depends on its initial volume and the volumetric expansion coefficient.

The percentage change in the volume of a sphere can be expressed as shown below:

\(\begin{aligned}{c}\Delta V\% &= \frac{{\Delta V}}{{{V_i}}} \times 100\% \\ &= \frac{{{V_i}\beta \Delta T}}{{{V_i}}} \times 100\% \\ &= \beta \left( {{T_f} - {T_i}} \right) \times 100\% \end{aligned}\)

Substitute the values in the above equation.

\(\begin{aligned}{c}\Delta V\% &= 75 \times {10^{ - 6}}\;{\rm{/^\circ C}} \times \left( {160^\circ {\rm{C}} - 30^\circ {\rm{C}}} \right) \times 100\% \\ &= 0.97\% \end{aligned}\)

Thus, the percentage change in the volume of the sphere is \(0.97\% \).