To find the height of the cylinder given its surface area, we use the formula for the surface area \( A \) of a cylinder, which is:
\[ A = 2\pi r(h + r) \]
where:
- \( A \) is the surface area,
- \( r \) is the radius, and
- \( h \) is the height.
Given the surface area \( A = 3737.3536 \) square feet, we need to rearrange the equation to solve for the height \( h \).
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We need the value of \( r \) (the radius of the cylinder) in order to solve for \( h \). Since you did not provide the radius, I will proceed with a general equation of \( h \).
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Rearranging the surface area formula:
\[ 3737.3536 = 2 \cdot 3.14 \cdot r(h + r) \]
- Simplifying this gives:
\[ 3737.3536 = 6.28r(h + r) \]
- Now, express \( h \):
\[ h + r = \frac{3737.3536}{6.28r} \]
\[ h = \frac{3737.3536}{6.28r} - r \]
At this point, we need the specific value for \( r \) (which is not provided).
If you assume the radius \( r \) as 17.2 ft which seems to be indicated in the question, we can substitute that into the equation:
\[ h = \frac{3737.3536}{6.28 \cdot 17.2} - 17.2 \]
Calculating this:
- Calculate \( 6.28 \cdot 17.2 \):
\[ 6.28 \times 17.2 \approx 107.136 \]
- Now substitute into the equation for \( h \):
\[ h = \frac{3737.3536}{107.136} - 17.2 \]
- Calculate \( \frac{3737.3536}{107.136} \):
\[ \frac{3737.3536}{107.136} \approx 34.87 \]
- Then calculate \( h \):
\[ h \approx 34.87 - 17.2 \approx 17.67 \]
So the height \( h \) rounded to the nearest hundredth is:
\[ \boxed{17.67} \text{ feet} \]
2 answers