SOLUTION: The height of a right circular cylinder is 1.5 times the radius of the base. What is the ratio of the total surface area to the lateral (curved) surface area of the cylinder?

Question 1158742: The height of a right circular cylinder is 1.5 times the radius of the base. What is the ratio of the total surface area to the lateral (curved) surface area of the cylinder?

Answer by Edwin McCravy(20054) (Show Source): You can put this solution on YOUR website!
The height of a right circular cylinder is 1.5 times the radius of the base.
What is the ratio of the total surface area to the lateral (curved) surface area
of the cylinder?

  <-- lateral (curved) surface area

The height of a right circular cylinder is 1.5 times the radius of the base.

So h = 1.5r and therefore



  <-- lateral (curved) surface area

What is the ratio of the total surface area to the lateral (curved) surface area of the cylinder?

Total surface area =

What is the ratio of the total surface area to the lateral (curved) surface area of the cylinder?



Edwin

RELATED QUESTIONS
The total surface area of a right circular cylinder is 96pi in^2. If the radius of its... (answered by Boreal)

If the surface area of a right circular cylinder is 12pie and the height is 1, what is... (answered by solver91311)

What is the surface area of a right circular cylinder with base circle of radius of 5m... (answered by Cromlix)

A right circular cylinder has a surface area of 112pi. If the height of the cylinder is... (answered by richwmiller)

A right circular cylinder has a surface area of 112π. If the height of the cylinder (answered by Greenfinch)

A right circular cylinder has a total surface area of 112(pi). If the height of the... (answered by robertb)

The diameter of the base of a right circular cylinder is 12 inches, and the height is 29... (answered by kimboo)

To Whomever can assist, Thank You! If the total surface area of a right circular... (answered by checkley71)

If the total surface area of a right circular cylinder is 104π square meters, and a... (answered by Gogonati)