Find Length of Curve: y=x^2+2 from 0-3

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The discussion focuses on finding the length of the curve defined by y = x^2 + 2 from x = 0 to x = 3. The correct formula for arc length is s = ∫ from a to b of √(1 + (dy/dx)²) dx. An initial mistake was made in calculating dy/dx, leading to a complicated integral. After recognizing the error and simplifying the expression, it was noted that 1 + x^2(x^2 + 2) simplifies to (x^2 + 1)². The corrected approach clarifies the calculation for the arc length.
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Find the length of y = \frac{1}{3} (x^2 + 2)^{\frac{3}{2}} from x=0 to x=3.

I used the formula s = \int_{a}^{b} \sqrt{1 + \frac{\,dy}{\,dx}} \,dx.
After plugging everything in, I got
s = \int_{0}^{3} (1 + \frac{1}{4} (x^2 + 2))}^\frac{1}{2} \,dx
Now, this isn't an integral I've learned how to do, so
1) Did I do anything wrong, and
2) If yes, what?
 
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I realized I forgot to use the chain rule when doing dy/dx. However when I do that, I get even a messier integral,
s = \int_{0}^{3} (1 + x^2(x^2 + 2))^\frac{1}{2} \,dx

?
 
It should be

s = \int_{a}^{b} \sqrt{1 + (\frac{\,dy}{\,dx})^2} \,dx

But that's not the pro u just wrote the wrong one and applied the right

u also have
1+x^2(x^2+2) = 1+x^4+2x^2=x^4+2x^2+1=(x^2+1)^2
Is it enough
 
Woah yeah, thanks, overlooked a simple thing there.
 

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