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Difference between revisions of "1996 AHSME Problems/Problem 8"
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<math> \text{(A)}\ -\log_{2}5\qquad\text{(B)}\ \log_{5}2\qquad\text{(C)}\ \log_{10}5\qquad\text{(D)}\ \log_{2}5\qquad\text{(E)}\ \frac{5}{2} </math>
 
<math> \text{(A)}\ -\log_{2}5\qquad\text{(B)}\ \log_{5}2\qquad\text{(C)}\ \log_{10}5\qquad\text{(D)}\ \log_{2}5\qquad\text{(E)}\ \frac{5}{2} </math>
  
==Solution 1==
+
==Solution==
  
 
We want to find <math>r</math>, so our strategy is to eliminate <math>k</math>.
 
We want to find <math>r</math>, so our strategy is to eliminate <math>k</math>.
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<math>r = \log_2 5</math>, which is option <math>\boxed{D}</math>.
 
<math>r = \log_2 5</math>, which is option <math>\boxed{D}</math>.
 +
 +
==Solution 2==
 +
Take corresponding logs and split up each equation to obtain:
 +
 +
<math>\log_2 3 = (\log_2 k) + (r)</math>
 +
 +
<math>\log_4 15 = (log_4 k) + (r)</math>
 +
 +
Then subtract the log from each side to isolate r:
 +
 +
<math>\log_2 (\frac{3}{k}) = r</math>
 +
 +
<math>\log_4 (\frac{15}{k}) = r</math>
 +
 +
Then set equalities and solve for k:
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 +
<math>\log_2 (\frac{3}{k}) = \log_4 (\frac{15}{k})</math>
 +
 +
<math>\frac{3}{k} = \sqrt{\frac{15}{k}}</math>
 +
 +
After solving we find that <math>k = \frac{3}{5}</math>. Plugging into either of the equations and solving (easiest with equation 1) we find that <math>r = \log_2 5 \implies \boxed{D}</math>
  
  
 
==See also==
 
==See also==
 
{{AHSME box|year=1996|num-b=7|num-a=9}}
 
{{AHSME box|year=1996|num-b=7|num-a=9}}
 +
{{MAA Notice}}

Latest revision as of 07:31, 10 October 2019

Problem

If $3 = k\cdot 2^r$ and $15 = k\cdot 4^r$, then $r =$

$\text{(A)}\ -\log_{2}5\qquad\text{(B)}\ \log_{5}2\qquad\text{(C)}\ \log_{10}5\qquad\text{(D)}\ \log_{2}5\qquad\text{(E)}\ \frac{5}{2}$

Solution

We want to find $r$, so our strategy is to eliminate $k$.

The first equation gives $k = \frac{3}{2^r}$.

The second equation gives $k = \frac{15}{4^r}$

Setting those two equal gives $\frac{3}{2^r} = \frac{15}{4^r}$

Cross-multiplying and dividing by $3$ gives $5\cdot 2^r = 4^r$.

We know that $4^r = 2^r \cdot 2^r$, so we can divide out $2^r$ from both sides (which is legal since $2^r \neq 0$), and we get:

$5 = 2^r$

$r = \log_2 5$, which is option $\boxed{D}$.

Solution 2

Take corresponding logs and split up each equation to obtain:

$\log_2 3 = (\log_2 k) + (r)$

$\log_4 15 = (log_4 k) + (r)$

Then subtract the log from each side to isolate r:

$\log_2 (\frac{3}{k}) = r$

$\log_4 (\frac{15}{k}) = r$

Then set equalities and solve for k:

$\log_2 (\frac{3}{k}) = \log_4 (\frac{15}{k})$

$\frac{3}{k} = \sqrt{\frac{15}{k}}$

After solving we find that $k = \frac{3}{5}$. Plugging into either of the equations and solving (easiest with equation 1) we find that $r = \log_2 5 \implies \boxed{D}$


See also

1996 AHSME (ProblemsAnswer KeyResources)
Preceded by
Problem 7 		Followed by
Problem 9
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
All AHSME Problems and Solutions

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