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7.4 Arc Length and Surface of Revolution

7.4 Arc Length and Surface of Revolution. (Photo not taken by Vickie Kelly). Greg Kelly, Hanford High School, Richland, Washington. Objectives. Find the arc length of a smooth curve. Find the area of a surface of revolution. Rectifiable curve : One that has a finite arc length

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7.4 Arc Length and Surface of Revolution

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  1. 7.4 Arc Length and Surface of Revolution (Photo not taken by Vickie Kelly) Greg Kelly, Hanford High School, Richland, Washington

  2. Objectives • Find the arc length of a smooth curve. • Find the area of a surface of revolution.

  3. Rectifiable curve: One that has a finite arc length f is rectifiable on [a,b] if f ' is continuous on [a,b]. If rectifiable, f is continuously differentiable on [a,b] and its graph is a smooth curve.

  4. Length of Curve (Cartesian) Lengths of Curves: If we want to approximate the length of a curve, over a short distance we could measure a straight line. By the pythagorean theorem: We need to get dx out from under the radical.

  5. Length of Curve (Cartesian) (function of x) Length of Curve (Cartesian) (function of y)

  6. Example: Find the arc length of:

  7. Example Find the arc length of:

  8. Example: Find the arc length of: Solve for x: When x=0: When x=8:

  9. Example: Find the arc length of:

  10. r Surface Area about x-axis (Cartesian): To rotate about the y-axis, just reverse x and y in the formula! Surface Area: Consider a curve rotated about the x-axis: The surface area of this band is: The radius is the y-value of the function, so the whole area is given by: This is the same ds that we had in the “length of curve” formula, so the formula becomes:

  11. If revolving f(x) about x-axis or g(y) about the y-axis: r(x)=f(x) r(y)=f(y)

  12. Example: Find the area of the surface formed by revolving on [0,1] about the x-axis. r=y

  13. If revolving f(x) about y-axis or g(y) about the x-axis: r(x)=x r(y)=y

  14. Example: Find the area of the surface formed by revolving on about the y-axis. r=x

  15. Homework 7.4 (page 485) #3 – 13 odd, 17 – 25 odd (Don't graph), 37, 39, 43 (Use the calculator to evaluate integrals.) p

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