Definite Integral of Product/Composite Function Given Graph

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JessTheMess
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Homework Statement



Given the graph of f(x) shown below, find the value of the integral.
Photo attached.

Homework Equations


[/B]
23 5x·f(x2)dx

The Attempt at a Solution


[/B]
I tried integration by parts to simplify the problem, but finding the integral of the composite function (f(x2)) doesn't make much sense to me without knowing the actual function that represents f(x).

I also tried using the equation of the semi-circle to find it, but the integration got too complicated.

Does anyone have a hint on how to start the problem and/or deal with the composite function in the integral? Thank you!
 

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I would do the change of variables
$$t=x^2$$.
 
When I do u-substitution, I also run into a problem.

t=x^2
dt = 2xdx
dx = dt/2x

∫5xf(t)dt/2x

5/2 ∫f(t)dt

How do I take the integral of f(t) when I don’t know what function f(t) is?
 
JessTheMess said:

Homework Statement



Given the graph of f(x) shown below, find the value of the integral.
Photo attached.

Homework Equations


[/B]
23 5x·f(x2)dx

The Attempt at a Solution


[/B]
I tried integration by parts to simplify the problem, but finding the integral of the composite function (f(x2)) doesn't make much sense to me without knowing the actual function that represents f(x).

I also tried using the equation of the semi-circle to find it, but the integration got too complicated.

Does anyone have a hint on how to start the problem and/or deal with the composite function in the integral? Thank you!

If one takes the most "obvious" form of the function ##f(x)##, the integral ##\int_3^2 5x f(x) \, dx## is negative; I hope you see why. However, if your integral, instead, really is ##\int_3^2 5x f(x^2) \, dx## (exactly as written) the integral is a pure imaginary number with a negative imaginary part.
 
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