hectictar

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Usernamehectictar
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 #1
avatar+9479 
+2

Its a little unclear to me what it means by "powerful" so I can understand how this question is a bit confusing.... maybe there is a specific meaning of the word "powerful" here and I just don't know it! But because of the fact that it bothers to tell us that the number on the Richter Scale is the exponent of 10 of the amplitude..... I'm guessing that perhaps the actual question it's asking is this:

 

How many times greater was the amplitude of the 2011 earthquake than the amplitude of the 2021 earthquake?

 

amplitude of the 2011 earthquake = 105.8

 

amplitude of the 2021 earthquake = 101.9

 

Now the question is:    105.8  is how many times greater is than 101.9  ?

 

Or in other words...  105.8  is equal to what times 101.9  ?

 

\(10^{5.8}\ =\ x\cdot10^{1.9}\)

                               Divide both sides of the equation by  101.9   to solve for  x

\(\dfrac{10^{5.8}}{10^{1.9}}\ =\ x\)

                               Now we can apply the rule which says  \(\frac{x^a}{x^b}\ =\ x^{a-b}\)

\(10^{5.8-1.9}\ =\ x \\~\\ 10^{3.9}\ =\ x\)

 

And so the amplitude of the 2011 earthquake is 103.9  times greater than the amplitude of the 2021 earthquake.

 

However, I could be misinterpreting this question too, and your original answer might be correct! Just because they told us that information about the Richter scale doesn't necessarily mean we have to use it to answer the question....maybe they were just trying to throw us off with a red herring

Mar 31, 2021
 #3
avatar+9479 
+6

The inverse function can be graphed by:    \(y=x^{\frac{1}{\log5}}\)

 

Here's a graph:

 

https://www.desmos.com/calculator/aijpzpouk1

 

In other words...

 

If   \(f(x)=5^{\log x}\)    then the inverse is   \(f^{-1}(x)=x^{\frac{1}{\log 5}}\)

 

And...

 

\(f(f^{-1}(x))\ =\ f(x^{\frac{1}{\log 5}})\ =\ 5^{\log(x^{\frac{1}{\log 5}})}\ =\ 5^{\frac{\log x}{\log 5}}\ =\ 5^{\log_5 x}\ =\ x\)

 

 

The options leave it in the form that is solved for  x, and so I left it like that to match the options smiley

Mar 22, 2021