A solid glass cylinder, which is used in an expensive laser amplifier, has a volume of $75 \\pi \, cm^3$ - Edexcel - A-Level Maths Pure - Question 2 - 2014 - Paper 1

To find the cost of polishing the solid glass cylinder, we first need to determine its surface area, which includes the curved surface area and the area of the two circular bases.

1. Curved Surface Area: The curved surface area of a cylinder is given by:
   $A_{curved} = 2 \\pi rh$
   Where $h$ is the height.

2. Area of the Two Circular Bases: The top and bottom circular areas can be calculated as:
   $A_{bases} = 2 \\pi r^2$

3. Expressing Height: From the volume of the cylinder, we know:
   $V = 75 \\pi = \\pi r^2 h$
   This leads to:
   $h = \frac{75}{r^2}$

4. Substituting Height into the Curved Surface Area: Now by substituting this value of $h$ into the curved surface area formula, we get:
   $A_{curved} = 2 \\pi r \left(\frac{75}{r^2}\right) = \frac{150 \\pi}{r}$

5. Total Surface Area: Therefore, the total surface area $A$ of the cylinder is:
   $A_{total} = A_{curved} + A_{bases} = \frac{150 \\pi}{r} + 2 \\pi r^2$

6. Cost of Polishing: The cost of polishing is given as:

   • £2 per cm² for curved surface:
     $Cost_{curved} = 2 * A_{curved} = 2 * \frac{150 \\pi}{r}$
   • £3 per cm² for bases:
     $Cost_{bases} = 3 * A_{bases} = 3 * (2 \\pi r^2) = 6 \\pi r^2$

Thus, the total cost C is: $C = 6 \\pi r^2 + \frac{300 \\pi}{r}$