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I'm quite confused, what is the difference between these two integrals (R and RS)? It seems that RS is closer to Lebesgue in its treatment of discontinuities, but otherwise I don't understand. If someone could give an example of a function for which they were different, it would be very beneficial.

Thanks.

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It seems to me that you are integrating relative to a $dg(x)$, rather than $dx$. For example, the if $g(x)$ is $0$ for negative $x$ and $1$ for positive $x$, then then $\int_{-1}^{1} f(x)dg(x)$ is $f(0)$ if $f$ is continuous.

If $g(x)=x$, the Riemann-Stieltjes integral is just the Riemann integral.

If $g(x)$ is continuously differentiable, then the RS-integral $\int_{a}^{b} f(x)dg(x)$ is the same as the Riemann integral \int_a^b f(x)g'(x) dx.

The differences then are the cases where $g(x)$ is not continuously differentiable. For example, if $g(x)$ is the step function above, then $dg(x)$ is "like" the Dirac delta function.

It's a beginning of a way of thinking of integrals as operators.

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    Yes, got a typo in there.2012-01-25
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Another way of saying this is that in the "Riemann-Stieltjes" we compute the "size" of each interval by $\alpha(x_{n+1})- \alpha(x_n)$ where $\alpha$ is an increasing function. If $\alpha$ is a differentiable function, then the Riemann-Stieltjes integral $\int f(x)d\alpha$ is the same as the Riemann integral $\int f(x)\frac{d\alpha}{dx}dx$. However, if $\alpha$ is not differentiable (and it does not even have to be continuous) the Riemann-Stieljes integral will exist while the Riemann integral does not. A popular use of the Riemann-Stieljes integral is to take $\alpha$ to be a step function so that a sum can be written as an integral.

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i think the difference is that , in riemann integral we used function f(x) but in riemann - stieljes integral we use one additional function i.e. alpha of x which is monotonically increasing and bounded function.