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Difference between revisions of "2001 AMC 12 Problems/Problem 21"

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== Solution ==
 
== Solution ==
  
We can rewrite the three equations as follows:
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Using Simon's Favorite Factoring Trick, we can rewrite the three equations as follows:
  
 
<cmath>
 
<cmath>
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Clearly <math>7^2</math> divides <math>fg</math>. On the other hand, <math>7^2</math> can not divide <math>f</math>, as it then would divide <math>ef</math>. Similarly, <math>7^2</math> can not divide <math>g</math>. Hence <math>7</math> divides both <math>f</math> and <math>g</math>. This leaves us with only two cases: <math>(f,g)=(7,21)</math> and <math>(f,g)=(21,7)</math>.
 
Clearly <math>7^2</math> divides <math>fg</math>. On the other hand, <math>7^2</math> can not divide <math>f</math>, as it then would divide <math>ef</math>. Similarly, <math>7^2</math> can not divide <math>g</math>. Hence <math>7</math> divides both <math>f</math> and <math>g</math>. This leaves us with only two cases: <math>(f,g)=(7,21)</math> and <math>(f,g)=(21,7)</math>.
  
The first case solves to <math>(e,f,g,h)=(75,7,21,5)</math>, which gives us <math>(a,b,c,d)=(74,6,20,4)</math>, but then <math>abcd \not= 8!</math>. (We do not need to multiply, it is enough to note e.g. that the left hand side is not divisible by <math>7</math>.)
+
The first case solves to <math>(e,f,g,h)=(75,7,21,5)</math>, which gives us <math>(a,b,c,d)=(74,6,20,4)</math>, but then <math>abcd \not= 8!</math>. We do not need to multiply, it is enough to note e.g. that the left hand side is not divisible by <math>7</math>. (Also, a - d equals <math>70</math> in this case, which is way too large to fit the answer choices.)
  
 
The second case solves to <math>(e,f,g,h)=(25,21,7,15)</math>, which gives us a valid quadruple <math>(a,b,c,d)=(24,20,6,14)</math>, and we have <math>a-d=24-14 =\boxed{10}</math>.
 
The second case solves to <math>(e,f,g,h)=(25,21,7,15)</math>, which gives us a valid quadruple <math>(a,b,c,d)=(24,20,6,14)</math>, and we have <math>a-d=24-14 =\boxed{10}</math>.
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== Video Solution ==
 +
https://youtu.be/zlzievV5e-U
  
 
== See Also ==
 
== See Also ==

Revision as of 21:21, 18 April 2022

Problem

Four positive integers $a$, $b$, $c$, and $d$ have a product of $8!$ and satisfy:

\begin{align*} ab + a + b & = 524 \\ bc + b + c & = 146 \\ cd + c + d & = 104 \end{align*}

What is $a-d$?

$\text{(A) }4 \qquad \text{(B) }6 \qquad \text{(C) }8 \qquad \text{(D) }10 \qquad \text{(E) }12$

Solution

Using Simon's Favorite Factoring Trick, we can rewrite the three equations as follows:

\begin{align*} (a+1)(b+1) & = 525 \\ (b+1)(c+1) & = 147 \\ (c+1)(d+1) & = 105 \end{align*}

Let $(e,f,g,h)=(a+1,b+1,c+1,d+1)$. We get:

\begin{align*} ef & = 3\cdot 5\cdot 5\cdot 7 \\ fg & = 3\cdot 7\cdot 7 \\ gh & = 3\cdot 5\cdot 7 \end{align*}

Clearly $7^2$ divides $fg$. On the other hand, $7^2$ can not divide $f$, as it then would divide $ef$. Similarly, $7^2$ can not divide $g$. Hence $7$ divides both $f$ and $g$. This leaves us with only two cases: $(f,g)=(7,21)$ and $(f,g)=(21,7)$.

The first case solves to $(e,f,g,h)=(75,7,21,5)$, which gives us $(a,b,c,d)=(74,6,20,4)$, but then $abcd \not= 8!$. We do not need to multiply, it is enough to note e.g. that the left hand side is not divisible by $7$. (Also, a - d equals $70$ in this case, which is way too large to fit the answer choices.)

The second case solves to $(e,f,g,h)=(25,21,7,15)$, which gives us a valid quadruple $(a,b,c,d)=(24,20,6,14)$, and we have $a-d=24-14 =\boxed{10}$.

Video Solution

https://youtu.be/zlzievV5e-U

See Also

2001 AMC 12 (ProblemsAnswer KeyResources)
Preceded by
Problem 20 		Followed by
Problem 22
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
All AMC 12 Problems and Solutions

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