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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 (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 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.
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.
Length of Curve (Cartesian) (function of x) Length of Curve (Cartesian) (function of y)
Example: Find the arc length of: Solve for x: When x=0: When x=8:
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:
If revolving f(x) about x-axis or g(y) about the y-axis: r(x)=f(x) r(y)=f(y)
Example: Find the area of the surface formed by revolving on [0,1] about the x-axis. r=y
If revolving f(x) about y-axis or g(y) about the x-axis: r(x)=x r(y)=y
Example: Find the area of the surface formed by revolving on about the y-axis. r=x
Homework 7.4 (page 485) #3 – 13 odd, 17 – 25 odd (Don't graph), 37, 39, 43 (Use the calculator to evaluate integrals.) p