Solving exponential equations with x as the exponent

AI Thread Summary
In solving exponential equations, it is not necessary for both sides to have the same exponent level; rather, the bases must be the same when applying the rule that states if a^m = a^n, then m = n. For example, while 9^2 equals 81, it is acceptable for the other side of the equation to be expressed with a different exponent, such as a third power. The key is to ensure that the bases are equivalent when simplifying. Additionally, this principle holds true only when the base is not equal to 1 or 0. Understanding these rules clarifies the approach to solving exponential equations effectively.
Tyrion101
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My confusion comes from basic exponent rules and whether or not both sides of an equation have to have the same level of exponent, when you reduce the base for solving. If one side can have an exponent of 3, does the other side also have to be reduced to something that would also have an exponent of 3? 9^2 does equal 81, but is that wrong if the other side can be reduced to a 3rd power, and can't be for a 2nd? I hope I'm making sense.
 
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Tyrion101 said:
My confusion comes from basic exponent rules and whether or not both sides of an equation have to have the same level of exponent, when you reduce the base for solving. If one side can have an exponent of 3, does the other side also have to be reduced to something that would also have an exponent of 3? 9^2 does equal 81, but is that wrong if the other side can be reduced to a 3rd power, and can't be for a 2nd? I hope I'm making sense.
The exponents don't have to be the same, but the bases have to be the same if you're using this idea: am = an ##\Rightarrow## m = n.
 
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Ok I think I understand
 
Just to nit pick, that is true when a =\= 1 and a =\= 0.
 
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