Difference between revisions of "1992 AIME Problems/Problem 4"

Revision as of 00:11, 1 August 2021

Problem

In Pascal's Triangle, each entry is the sum of the two entries above it. The first few rows of the triangle are shown below.

$\begin{array}{c@{\hspace{8em}} c@{\hspace{6pt}}c@{\hspace{6pt}}c@{\hspace{6pt}}c@{\hspace{4pt}}c@{\hspace{2pt}} c@{\hspace{2pt}}c@{\hspace{2pt}}c@{\hspace{2pt}}c@{\hspace{3pt}}c@{\hspace{6pt}} c@{\hspace{6pt}}c@{\hspace{6pt}}c} \vspace{4pt} \text{Row 0: } & & & & & & & 1 & & & & & & \\\vspace{4pt} \text{Row 1: } & & & & & & 1 & & 1 & & & & & \\\vspace{4pt} \text{Row 2: } & & & & & 1 & & 2 & & 1 & & & & \\\vspace{4pt} \text{Row 3: } & & & & 1 & & 3 & & 3 & & 1 & & & \\\vspace{4pt} \text{Row 4: } & & & 1 & & 4 & & 6 & & 4 & & 1 & & \\\vspace{4pt} \text{Row 5: } & & 1 & & 5 & &10& &10 & & 5 & & 1 & \\\vspace{4pt} \text{Row 6: } & 1 & & 6 & &15& &20& &15 & & 6 & & 1 \end{array}$ In which row of Pascal's Triangle do three consecutive entries occur that are in the ratio $3 :4 :5$ ?

Solution 1

Consider what the ratio means. Since we know that they are consecutive terms, we can say $\frac{\dbinom{n}{k-1}}{3} = \frac{\dbinom{n}{k}}{4} = \frac{\dbinom{n}{k+1}}{5}.$

Taking the first part, and using our expression for $n$ choose $k$ , $\frac{n!}{3(k-1)!(n-k+1)!} = \frac{n!}{4k!(n-k)!}$ $\frac{1}{3(k-1)!(n-k+1)!} = \frac{1}{4k!(n-k)!}$ $\frac{1}{3(n-k+1)} = \frac{1}{4k}$ $n-k+1 = \frac{4k}{3}$ $n = \frac{7k}{3} - 1$ $\frac{3(n+1)}{7} = k$ Then, we can use the second part of the equation. $\frac{n!}{4k!(n-k)!} = \frac{n!}{5(k+1)!(n-k-1)!}$ $\frac{1}{4k!(n-k)!} = \frac{1}{5(k+1)!(n-k-1)!}$ $\frac{1}{4(n-k)} = \frac{1}{5(k+1)}$ $\frac{4(n-k)}{5} = k+1$ $\frac{4n}{5}-\frac{4k}{5} = k+1$ $\frac{4n}{5} = \frac{9k}{5} +1.$ Since we know $k = \frac{3(n+1)}{7}$ we can plug this in, giving us $\frac{4n}{5} = \frac{9\left(\frac{3(n+1)}{7}\right)}{5} +1$ $4n = 9\left(\frac{3(n+1)}{7}\right)+5$ $7(4n - 5) = 27n+27$ $28n - 35 = 27n+27$ $n = 62$ We can also evaluate for $k$ , and find that $k = \frac{3(62+1)}{7} = 27.$ Since we want $n$ , however, our final answer is $\boxed{062.}$ ~LaTeX by ciceronii

Solution 2

Call the row x, and the number from the leftmost side t. Call the first term in the ratio $N$ . $N = \dbinom{x}{t}$ . The next term is $N * \frac{x-t}{t+1}$ , and the final term is $N * \frac{(x-t)*(x-t-1)}{(t+1)*(t+2)}$ . Because we have the ratio, $N : N * \frac{x-t}{t+1} : N * \frac{(x-t)*(x-t-1)}{(t+1)*(t+2)}$ = $3:4:5$ ,

$\frac{x-t}{t+1} = \frac{4}{3}$ and $\frac{(x-t)*(x-t-1)}{(t+1)*(t+2)} = \frac{5}{3}$ . Solve the equation to get get $t= 26$ and $x = \boxed{062}$ .

https://www.wolframalpha.com/input/?i=%28x-t%29%2F%28t%2B1%29++%3D+4%2F3%2C++%28x-t%29%28x-t-1%29%2F%28%28t%2B1%29%28t%2B2%29%29+%3D+5%2F3

-Solution and LaTeX by jackshi2006

1992 AIME (Problems • Answer Key • Resources)
Preceded by Problem 3	Followed by Problem 5
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15
All AIME Problems and Solutions

The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.

@@ Line 1: / Line 1: @@
 == Problem ==
-In Pascal's Triangle, each entry is the sum of the two entries above it. In which row of [[Pascal's Triangle]] do three consecutive entries occur that are in the ratio <math>3: 4: 5</math>?
+In Pascal's Triangle, each entry is the sum of the two entries above it. The first few rows of the triangle are shown below.
-== Solution ==
+<cmath>\begin{array}{c@{\hspace{8em}}
+c@{\hspace{6pt}}c@{\hspace{6pt}}c@{\hspace{6pt}}c@{\hspace{4pt}}c@{\hspace{2pt}}
+c@{\hspace{2pt}}c@{\hspace{2pt}}c@{\hspace{2pt}}c@{\hspace{3pt}}c@{\hspace{6pt}}
+c@{\hspace{6pt}}c@{\hspace{6pt}}c} \vspace{4pt}
+\text{Row 0: } &    &    &     &     &    &    & 1 &     &     &    &    &    &  \\\vspace{4pt}
+\text{Row 1: } &    &    &     &     &    & 1 &    & 1  &     &    &    &    &  \\\vspace{4pt}
+\text{Row 2: } &    &    &     &     & 1 &    & 2 &     & 1  &    &    &    &  \\\vspace{4pt}
+\text{Row 3: } &    &    &     &  1 &    & 3 &    & 3  &     & 1 &    &    &  \\\vspace{4pt}
+\text{Row 4: } &    &    & 1  &     & 4 &    & 6 &     & 4  &    & 1 &    &  \\\vspace{4pt}
+\text{Row 5: } &    & 1 &     & 5  &    &10&    &10 &     & 5 &    & 1 &  \\\vspace{4pt}
+\text{Row 6: } & 1 &    & 6  &     &15&    &20&     &15 &    & 6 &    & 1
+\end{array}</cmath>
+In which row of [[Pascal's Triangle]] do three consecutive entries occur that are in the ratio <math>3 :4 :5</math>?
+== Solution 1==
 Consider what the ratio means. Since we know that they are consecutive terms, we can say
@@ Line 29: / Line 43: @@
 	<cmath> n = 62 </cmath>
 We can also evaluate for <math>k</math>, and find that <math>k = \frac{3(62+1)}{7} = 27.</math> Since we want <math>n</math>, however, our final answer is <math>\boxed{062.}</math> ~LaTeX by ciceronii
+==Solution 2==
+Call the row x, and the number from the leftmost side t. Call the first term in the ratio <math>N</math>. <math>N = \dbinom{x}{t}</math>. The next term is <math>N * \frac{x-t}{t+1}</math>, and the final term is <math>N * \frac{(x-t)*(x-t-1)}{(t+1)*(t+2)}</math>. Because we have the ratio, <math>N : N * \frac{x-t}{t+1} : N * \frac{(x-t)*(x-t-1)}{(t+1)*(t+2)}</math> = <math>3:4:5</math>,
+<math>\frac{x-t}{t+1} = \frac{4}{3}</math> and <math>\frac{(x-t)*(x-t-1)}{(t+1)*(t+2)} = \frac{5}{3}</math>.
+Solve the equation to get get <math> t= 26 </math> and <math>x = \boxed{062}</math>.
+https://www.wolframalpha.com/input/?i=%28x-t%29%2F%28t%2B1%29++%3D+4%2F3%2C++%28x-t%29%28x-t-1%29%2F%28%28t%2B1%29%28t%2B2%29%29+%3D+5%2F3
+-Solution and LaTeX by jackshi2006

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Difference between revisions of "1992 AIME Problems/Problem 4"

Revision as of 00:11, 1 August 2021

Problem

Solution 1

Solution 2