The function v(x) is the velocity in m/sec of a particle moving along the x-axis. Find the total distance traveled by the particle.
Given: v(x) = 5(cos(x)^2)sin(x) , 0 <= x <= 2pi
A. 20/3 <--the answer
B. 0
C. 20
D. 10/3
My work:
----------
Since velocity is given, I just integrated it from 0 to 2pi. But I got 1.7 something, which fits NONE of the answers.
So then, I decided to integrate using the distance formula, since we're on that part of the chapter: (1 + v(x)^2)^.5 integrated from 0 to 2pi. I got 6.58037, which is close to 20/3, which is the answer.
***Question: WHY didn't my first approach work? Can't you just integrate velocity to get distance traveled? Why did it fail?
Given: v(x) = 5(cos(x)^2)sin(x) , 0 <= x <= 2pi
A. 20/3 <--the answer
B. 0
C. 20
D. 10/3
My work:
----------
Since velocity is given, I just integrated it from 0 to 2pi. But I got 1.7 something, which fits NONE of the answers.
So then, I decided to integrate using the distance formula, since we're on that part of the chapter: (1 + v(x)^2)^.5 integrated from 0 to 2pi. I got 6.58037, which is close to 20/3, which is the answer.
***Question: WHY didn't my first approach work? Can't you just integrate velocity to get distance traveled? Why did it fail?
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