Answer to Question #164578 in Real Analysis for Ebenezer

Let "f(x)" and "g(x)" be two functions of bounded variations.

So, the sum i.e., "f(x)+g(x)"

We can get "h(x)=f(x)+g(x)"

Using the definition of a function of continuous variation we know that the total variation is atmost the variation of "f(x)+g(x)"

So, "h(x)=f(x)+g(x)" is a function of continuous variation.

Now, let "c(x)=f(x)\\cdot g(x)"

We can re-write the function as:-

"|(fg)(x)-(fg)(y)|\\leq |f(x)||g(x)-g(y)|+|g(y)||f(x)-f(y)|\\>\\> [triangle\\>inequality]"

So, this is a transposition of the previous function i.e., the sum of the functions.

So, we conclude that the product of two functions is also of bounded variation.