Measure theory and Cantor function

sbashrawi
Messages
49
Reaction score
0

Homework Statement


Show that there is a continuous , strictly increasing function on the interval [0, 1] that maps a set of positive measure onto a set of measure zero


Homework Equations





The Attempt at a Solution



I need to find a mapping to a countable set or cantor set but I couldn't construct such function
 
Physics news on Phys.org
TRY the Cantor function. Why doesn't it work? What might you do to modify it?
 
Cantor function is amapping from [0,1] onto [0,1] , I need a restriction so that its image has measure zero. But it is seemed to me that its image is countable am I right?
 
sbashrawi said:
Cantor function is amapping from [0,1] onto [0,1] , I need a restriction so that its image has measure zero. But it is seemed to me that its image is countable am I right?

It's image is [0,1]. That's not countable. Nor does it have measure zero. But those aren't the things you need. If C(x) is the Cantor function, it's not strictly monotone increasing, is it? Can you tell me why not? There's an easy way to modify it into a function from [0,1] to [0,2] that is strictly monotone increasing.
 
We have the function : h(x) = C(x) + x , where C(x) is the cantor function, the function h(x) is increasing function from [0,1] onto [0,2].
[0,1] = C union O : c = cantor set , O its complement.
m( C) = 0 , m(O) = 1 .
how can I modify this to get the required function?
 
sbashrawi said:
We have the function : h(x) = C(x) + x , where C(x) is the cantor function, the function h(x) is increasing function from [0,1] onto [0,2].
[0,1] = C union O : c = cantor set , O its complement.
m( C) = 0 , m(O) = 1 .
how can I modify this to get the required function?

That's already (almost) the function you want. m([0,2])=2. What are m(h(O)) and m(h(C))?
 
m( h(O)) = 1 and m(h(c))= 1 .
I think we can use the inverse function of h . it is contniuous , increasing
and hinv: [0,2] to [0,1]
and h inv(h(c)) = c which has measure zero i.e it maps a set with positive measure to a set of measure zero as required.

let f(x) = h(x) / 2 we get the required function: f: [0,1] to [0,1]
 
sbashrawi said:
m( h(O)) = 1 and m(h(c))= 1 .
I think we can use the inverse function of h . it is contniuous , increasing
and hinv: [0,2] to [0,1]
and h inv(h(c)) = c which has measure zero i.e it maps a set with positive measure to a set of measure zero as required.

let f(x) = h(x) / 2 we get the required function: f: [0,1] to [0,1]

That's it.
 

Similar threads

How should I show that there exists only one solution?
Replies
11
Views
2K
Composition of a Continuous and Measurable Function
Replies
2
Views
3K
I Simple partitioning of sequence in Proposition 1.15 in Folland's text
Replies
3
Views
2K
Understanding the Fat Cantor Set & Proving Its Measure
Replies
2
Views
8K
Can Measurable Sets Be Written as Disjoint Union of Countable Collection?
Replies
2
Views
2K
Show a limited function is measurable
Replies
1
Views
2K
Show that the complement of a non-measurable set is also n.m
Replies
4
Views
3K
I Are slices of measurable functions measurable?
Replies
3
Views
2K
Determining if Numbers are in the Cantor Set
Replies
2
Views
1K
Are 5/27 and 8/9 in the Cantor Set?
Replies
2
Views
2K

Hot Threads

Recent Insights

Back
Top