Surface area by revolving a curve problem

Waggattack · Sep 3, 2009

1. I am suppose to find the surface area of the curve y=sqrt(4-x^2) from -1 to 1 when it is revolving around the x-axis.

2. Homework Equations : S= 2PIf(x)sqrt(1+(dy/dx)^2)dx

3. I found the derivative to be -x(4-x^2)^-1/2 and then squared it so the problem is 2Pi -1[tex]\int[/tex]1 sqrt(4-x^2)sqrt(1+[x^2(4-x^2)] but I have no clue where to go from here.

Elucidus · Sep 4, 2009

You state that you get

[tex]2\pi \int_{-1}^{1} \sqrt{4-x^2} \sqrt{1+ \frac{x^2}{4-x^2}} \; dx[/tex]

Try to simplify the integrand. Remember [tex]\sqrt A \sqrt B = \sqrt{AB}[/tex].

--Elucidus

Surface area by revolving a curve problem

Related to Surface area by revolving a curve problem

1. What is the formula for finding the surface area of a curve when it is revolved around an axis?

2. How do you determine the limits of integration for finding the surface area of a curve?

3. Can the surface area of a curve be negative?

4. What is the difference between revolving a curve around the x-axis versus the y-axis?

5. Are there any real-life applications of finding the surface area of a curve by revolving it around an axis?

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