Arc Length and Surface Area
Suppose that we are given a function that is continuous on an interval and we want to calculate the length of the curve drawn out by the graph of from to . If the graph were a straight line this would be easy — the formula for the length of the line is given by Pythagoras' theorem. And if the graph were a piecewise linear function we can calculate the length by adding up the length of each piece.
The problem is that most graphs are not linear. Nevertheless we can estimate the length of the curve by approximating it with straight lines. Suppose the curve is given by the formula for . We divide the interval into subintervals with equal width and endpoints . Now let so is the point on the curve above . The length of the straight line between and is
So an estimate of the length of the curve is the sum
As we divide the interval into more pieces this gives a better estimate for the length of . In fact we make that a definition.
Contents
The Arclength Formula
Suppose that is continuous on . Then the length of the curve given by between and is given by
And in Leibniz notation
Proof: Consider . By the Mean Value Theorem there is a point in such that
So
Putting this into the definition of the length of gives
Now this is the definition of the integral of the function between and (notice that is continuous because we are assuming that is continuous). Hence
as claimed.
Template:ExampleRobox As a sanity check of our formula, let's calculate the length of the "curve" from to . First let's find the answer using the Pythagorean Theorem.
and
so the length of the curve, , is
Now let's use the formula
Exercises
Template:Question-answer Template:Noprint
Arclength of a parametric curve
For a parametric curve, that is, a curve defined by and , the formula is slightly different:
Proof: The proof is analogous to the previous one: Consider and .
By the Mean Value Theorem there are points and in such that
and
So
Putting this into the definition of the length of the curve gives
This is equivalent to:
Exercises
Resources
Arc Length
- Arc Length - Part 1 of 2 by James Sousa, Math is Power 4U
- Arc Length - Part 2 of 2 by James Sousa, Math is Power 4U
- Ex: Find the Arc Length of a Linear Function by James Sousa, Math is Power 4U
- Ex: Find the Arc Length of a Radical Function by James Sousa, Math is Power 4U
- Ex: Find the Arc Length of a Quadratic Function by James Sousa, Math is Power 4U
- Deriving the Arc Length Formula in Calculus by patrickJMT
- Arc Length by patrickJMT
- Arc Length y=f(x) by Krista King
- Arc length x=g(y) by Krista King
- Arc Length Intro by Khan Academy
- Arc Length Example by Khan Academy
- Arc Length Example by Khan Academy
- Arc Length by The Organic Chemistry Tutor
Surface Area
- Surface Area of Revolution - Part 1 of 2 by James Sousa, Math is Power 4U
- Surface Area of Revolution - Part 2 of 2 by James Sousa, Math is Power 4U
- Ex: Surface Area of Revolution - Linear Function by James Sousa, Math is Power 4U
- Ex: Surface Area of Revolution - Sine Function by James Sousa, Math is Power 4U
- Ex: Surface Area of Revolution - Cubic Function About x-axis by James Sousa, Math is Power 4U
- Ex: Surface Area of Revolution - Square Root Function About x-axis by James Sousa, Math is Power 4U
- Ex: Surface Area of Revolution - Quadratic Function About y-axis by James Sousa, Math is Power 4U
- Ex: Surface Area of Revolution - Cube Root Function About y-axis by James Sousa, Math is Power 4U
- Finding Surface Area - Part 1 by patrickJMT
- Finding Surface Area - Part 2 by patrickJMT
- Surface Area of Revolution Example 1 by Krista King
- Surface Area of Revolution Example 2 by Krista King
- Surface Area of Revolution Example 3 by Krista King
- Surface Area of Revolution By Integration by The Organic Chemistry Tutor