Symmetricity of exponential graphs

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SUMMARY

The discussion centers on the symmetry of two exponential functions, f(x) = a^{bx-1} and g(x) = a^{1-bx}, with respect to the line x = 2. Participants clarify that these functions are not symmetric as initially proposed, as f(2) does not equal g(2). Instead, they establish that f(2) and g(2) are reciprocals, leading to the conclusion that for true symmetry, the condition f(2+x) = g(2-x) must hold for all x. The values of a and b are derived under the condition f(4) + g(4) = 5/2, ultimately leading to the conclusion that b must equal 0.

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Homework Statement


Suppose two exponential functions, f(x) and g(x) are symmetric with respect to x = 2.

f(x)=a^{bx-1}
g(x)=a^{1-bx}

Prove f(2) = g(2)

Homework Equations





The Attempt at a Solution


This isn't actually a problem. This is a property used to solve a different problem which I really had a hard time understanding. Why is this true?
 
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I might be completely misunderstanding what you're trying to say, but the functions you give are not symmetric with respect to the line x = 2, and furthermore, f(2) \neq g(2). The two functions are reciprocals of one another, though.

f(2) = a^{2b - 1}
g(2) = a^{1 - 2b} = a^{-(2b -1)} = \frac{1}{a^{2b - 1}} = \frac{1}{f(2)}

If the two functions were the mirror images of each other across the line x = 2, it would have to be the case that f(2 + x) = g(2 - x). For example, f(3) would have to be equal to g(1), which is not the case.

Can you clarify what you're trying to do?
 
Well, here's the whole problem:

The two exponential functions

f(x)=a^{bx-1}
g(x)=a^{1-bx}

Satisfy the following conditions

a)Functions y = f(x) and y=g(x) are symmetric to the line x = 2 when graphed
b)f(4) + g(4) = \frac {5}{2}

Find a and b.
 
a^(bx-1) is not symmetric with respect to any x value unless either b=0 or a=1. a=1 doesn't work if f(4)+g(4)=5/2. Hence b=0. So a+a^(-1)=5/2. That's easy to solve. Is this problem as silly as that?
 
Perhaps the question is intended to mean

f(2-x)=g(x-2) for all x.
 
So b(2-x)-1=1-b(x-2) for all x? About all I get out of that is 1=(-1).
 
Sorry, I meant of course that the condition is

f(2+x)=g(2-x) for all x.
 
borgwal said:
Sorry, I meant of course that the condition is

f(2+x)=g(2-x) for all x.

No, I'm sorry. I knew what you meant to say, but I didn't check that f(2-x)=g(x-2) was not the symmetry we were both thinking of. Yeah, that seems to give a reasonable answer for a and b. l46kok, look at how I tried to derive the value of b incorrectly and use borgwal's corrected condition on f and g to get b.
 
Something is wrong, the answer is supposed to be

a+b = 1 though
 
  • #10
I asked my professor and he told me that

g(x) = f(4 - x), f(x) = g(4 - x), since x is symmetric to 2

Now I'm even more confused.
 
  • #11
l46kok said:
I asked my professor and he told me that

g(x) = f(4 - x), f(x) = g(4 - x), since x is symmetric to 2

Now I'm even more confused.

Why don't you try substituting that condition into the definitions of f(x) and g(x)?
 
  • #12
g(x) = f(4 - x), f(x) = g(4 - x), and f(x - 2) = g(x + 2) actually all say the same thing in a slightly different way.
 

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