/sci/ - Science & Math » Thread #13432551

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Anonymous Sun 25 Jul 03:52:49 2021 No.13432551 View Reply Original Report

Quoted By: >>13432757 >>13433085 >>13433097

I'm trying to evaluate a riemann-stieltjes integral with f(x) = e^x and a piecewise function g(x). Am I just being retarded in picrel? I'm trying to follow through what's provided on https://planetmath.org/calculationofriemannstieltjesintegral, but there's some gaps in explanations

Anonymous

Anonymous Sun 25 Jul 2021 04:48:47 No.13432672 Report

Quoted By: >>13432736

try to evaluate latex

Anonymous

Anonymous Sun 25 Jul 2021 05:28:01 No.13432736 Report

Quoted By: >>13432743

>>13432672
Here, I'll help OP out with the latex:
$ g(x)=x-1\ \textrm{on}\ x<0\\ g(x)=x+1\ \textrm{on}\ x>0\\ g(0)=0\\ \int_{-1}^{1}e^xdg=\int_{-1}^{1}g'(x)dx =\\ \int_{-1}^{0}e^x(1)dx+\int_{0}^{1}e^xdx+g(0)=\\ 1-\frac{1}{e}+e-1+0=\boxed{e-\frac{1}{e}} $
I could look at it to see if it makes sense but I think I'll let somebody else deal with that : )

Anonymous

Anonymous Sun 25 Jul 2021 05:31:17 No.13432743 Report

Quoted By: >>13432757 >>13432776 >>13432789

>>13432736
kill me...
Correction:
$ g(x)=x-1\ \textrm{on}\ x<0\\ g(x)=x+1\ \textrm{on}\ x>0\\ g(0)=0\\ \int_{-1}^{1}e^xdg=\int_{-1}^{1}e^xg'(x)dx =\\ \int_{-1}^{0}e^x(1)dx+\int_{0}^{1}e^x(1)dx+g(0)=\\ 1-\frac{1}{e}+e-1+0=\boxed{e-\frac{1}{e}} $

Anonymous

Anonymous Sun 25 Jul 2021 05:36:28 No.13432757 Report

Quoted By: >>13432767 >>13432789

>>13432743
>>13432551
Makes sense except the g(0) should probably be a 2*g(0)

Anonymous

Anonymous Sun 25 Jul 2021 05:39:25 No.13432767 Report

Quoted By: >>13432789

>>13432757
Wait, it should actually be 2 * e^0 not 2 * g(0)

Anonymous

Anonymous Sun 25 Jul 2021 05:44:38 No.13432776 Report

Quoted By: >>13432781 >>13432803

>>13432743
(-1,1) doesn't exist in g though. You can't sum from -1 to 1 in g. The answer should be 0

Anonymous

Anonymous Sun 25 Jul 2021 05:46:04 No.13432781 Report

Quoted By: >>13432803

>>13432776
Forgot to add, the sub you made from dg to g' dx is fine but you have to change the bounds of the integral to match

Anonymous

Anonymous Sun 25 Jul 2021 05:47:59 No.13432789 Report

Quoted By: >>13432803

>>13432757
>>13432767
I should mention that I (>>13432743) am not OP and that I was just doing him a favor by transcribing his post into Latex. I deleted my original post explaining that because it was taking up space in the thread and it contained some errors.
Just clarifying in case I made any errors in my transcription, OP's handwriting is a little hard to read tbqh.

Anonymous

Anonymous Sun 25 Jul 2021 05:53:09 No.13432803 Report

Quoted By:

>>13432776
>>13432781
I think you're confusing change of variables with Riemann-Stieltjes integration (they're similar but g need not be differentiable in the latter case).
https://en.wikipedia.org/wiki/Riemann%E2%80%93Stieltjes_integral#Formal_definition

>>13432789
I agree that OP's handwriting is hard to read. I just quoted both of you to be sure.

Anonymous

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Anonymous Sun 25 Jul 2021 08:39:10 No.13433085 Report

Quoted By: >>13433496

>>13432551
Sorry guy, idk how to do latex on here.
Here's my ATTEMPT.

If im correct, here's what I've learned from this exercise:
Can we simply ignore the jump at x=0?
No, course not. Look at the pic. It only became negligible because on both sides, g'(x) was CONSTANT and EQUAL on both sides.

What if it was constant but not equal? What if g(x) = -x+1 on x>0? That means g'(x) = -1 for x>0, which would change the answer to -F(1)-F(-1)+2F(0) = -e-1/e+2.

What if g'(x) wasn't constant? What if g'(x) = -sin(1/x), meaning it oscillates and the limit doesn't exist as x approaches 0 (on either side)? That would mean you would have to find the antiderivative of -sin(1/x)*e^x. I dunno what the answer to this question would be then.

What if g(x) is continuous everywhere but g'(x) exist nowhere? I dont wanna think how that would go...

If g'(x) was a nonconstant, but nice function, you'd still have to find the antiderivative of g'(x)e^x, which may or may not be doable.

Anonymous

Anonymous Sun 25 Jul 2021 08:44:46 No.13433097 Report

Quoted By: >>13433101

>>13432551
The derivative of g is
g(x) = 1 + 2 delta(x)

integral_{-1}^1 e^x g'(x) dx
= integral_{-1}^1 e^x dx + 2 integral_{-1}^1 e^x delta(x) dx
= e - e^(-1) + 2 e^0
= e - e^(-1) + 2

Anonymous

Anonymous Sun 25 Jul 2021 08:46:30 No.13433101 Report

Quoted By:

>>13433097
g'(x) = 1 + 2 delta(x)

Anonymous

Anonymous Sun 25 Jul 2021 10:47:19 No.13433303 Report

Quoted By:

Literally doesn't matter.
That third term in the third expression is bullshit. Look up integral of piecewise continuous functions. The right way to look at this is of course as Lebesgue integral (it doesn't matter how your measurable function looks on a set of lebesgue measure 0).

Anonymous

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Anonymous Sun 25 Jul 2021 12:26:03 No.13433496 Report

Quoted By: >>13433553

>>13433085
The format is <math>latex code</math> for math mode and <eqn>latex code</eqn> for display mode, except you use [square brackets] instead of the <brackets> I used.
This board also lets you preview how your latex code will look before you post it; when you get the reply window there should be something you can click in the top left corner which says TEX, if you hover over it it should say
>Preview TeX equations
Click it and you should get another window. Type some code in either of the formats I have just outlined and it should show you how it will look. Good luck :^)

Anonymous

Anonymous Sun 25 Jul 2021 12:48:48 No.13433553 Report

Quoted By: >>13433898

>>13433496
$\int_{-1}^1 f(x)dg = \int_{-1}^1 f(x)g'(x)dx =$
$\lim_{a \rightarrow 0^-} \int_{-1}^{a} f(x)g'(x)dx + \lim_{a \rightarrow 0^+}\int_{a}^1 f(x)g'(x)dx$

whoa. thx!

Anonymous

Anonymous Sun 25 Jul 2021 14:50:35 No.13433898 Report

Quoted By:

>>13433553
No problem, glad I could help. Will definitely save that for later in case I ever run into some anon who could use it.

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