I have a continious function f that is strictly increasing. And a continious function g that is strictly decreasing. How to I rigorously prove that f(x)=g(x) has a unique solution?

Violet Woodward

Violet Woodward

Answered question

2022-07-21

Intermediate value theorem on infinite interval R
I have a continious function f that is strictly increasing. And a continious function g that is strictly decreasing. How to I rigorously prove that f ( x ) = g ( x ) has a unique solution?
Intuitively, I understand that if I take limits to infinity, then f grows really large and g grows very small so the difference is less than zero. If I take the limits to negative infinity then the opposite happens. Using the intermediate value theorem, there must be an intersection, and since they are strictly increasing/decreasing, only one intersection happens.
My question is how do I apply the intermediate value theorem here? I don't have the interval to apply it on. I don't know when f crosses g and therefore can't take any interval. Or is there some sort of axiom applied here that I am missing?

Answer & Explanation

neobuzdanio

neobuzdanio

Beginner2022-07-22Added 13 answers

Step 1
Note that if f ( x ) = g ( x ) has a solution x 0 then it can have no other solution x 1 > x 0 because f ( x 1 ) > f ( x 0 ) = g ( x 0 ) > g ( x 1 ). Similarly, it cannot have a solution x 2 < x 0 . So, maximum number of possible solution is 1
Step 2
But however it is wrong to conclude that they will always have a solution, because we have counterexamples:
f ( x ) = e x and g ( x ) = e x contradicts your claim.
Karsyn Beltran

Karsyn Beltran

Beginner2022-07-23Added 5 answers

Step 1
This is not necessarily true, take f ( x ) = e x and g ( x ) = e x then f ( x ) = g ( x ) has no solution, if f ( x ) = g ( x ) has a solution then it's unique!
Say f ( x ) = g ( x ) has a solution
Consider the function h ( x ) = f ( x ) g ( x ), h is continuous, and clearly h is strictly incresing, so h ( x ) = 0 cannot have more than 1 real roots as it would violate that it's strictly increasing.
Step 2
(As if h ( x ) = h ( y ) for x y then either x > y or y > x so either f ( x ) > f ( y ) or f ( y ) > f ( x ), anyway we get a contradiction! )
Hence if f ( x ) = g ( x ) has a solution then it's unique!

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