Proving Product of Regulated Functions is Regulated

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The product of two regulated functions is also regulated, as established in the discussion. A function is defined as regulated if it can be expressed as the limit of a sequence of step functions. The participants confirm that pointwise convergence of sequences a_n and b_n, which converge to regulated functions f and g respectively, is not sufficient; uniform convergence must also be demonstrated. It is crucial to note that the domain of the functions must be a closed interval [a, b] to ensure the uniform limit of step functions exists.

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1 Show that the product of two regulated functions is regulated.



2. A function is regulated if it is the limit of a sequence of step functions.



3. I let f,g be regulated and let a_n, b_n tend to f, g respectivley. I can show that for any x, a_n (x) . b_n (x) tends to f(x).g(x) (i.e. pointwise convergence). Is this sufficient or do I need to show uniform convergence? If so how do I go about it?
 
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You do need to show uniform convergence, since to show fg is a regulated function, you need to exhibit a sequence of step functions converging uniformly to fg.

I think one needs some additional information; is the domain a compact closed interval? The function f(x) = x, for instance, is not a uniform limit of step functions when you take the domain to be all of \mathbb{R}.

Assuming the domain is bounded, think about \sup_x |f(x)| or \sup_x |g(x)|.
 
Sorry I probably should have said, the two functions f,g are on the closed real interval [a,b] for some real a,b.
 

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