Difference between revisions of "Mock AIME 3 Pre 2005 Problems/Problem 5"
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This is equivalent to inserting <math>2</math> <math>O</math>s into the word | This is equivalent to inserting <math>2</math> <math>O</math>s into the word | ||
<cmath>C,C,C,C,C,C,C,C</cmath> | <cmath>C,C,C,C,C,C,C,C</cmath> | ||
− | There are <math>\frac{9\cdot8}{2} | + | There are <math>\frac{9\cdot8}{2}=36</math> possibilities in total. |
− | There <math> | + | There <math>8</math> possibilities when the <math>2</math> <math>O</math>s have no <math>C</math>s in between them. |
− | There <math> | + | There <math>7</math> possibilities when the <math>2</math> <math>O</math>s have <math>1</math> <math>C</math> in between them. |
− | In total, case <math>3</math> holds <math>( | + | In total, case <math>3</math> holds <math>(36-7-8)\cdot2^8=7936</math> possible words. |
Case <math>4</math>: The word contains <math>1</math> <math>O</math>s. | Case <math>4</math>: The word contains <math>1</math> <math>O</math>s. | ||
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There are <math>2^10=1024</math> possible words. | There are <math>2^10=1024</math> possible words. | ||
− | Adding up the 5 cases yields | + | Adding up the 5 cases yields |
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==See Also== | ==See Also== |
Revision as of 09:45, 28 November 2019
Problem
In Zuminglish, all words consist only of the letters and . As in English, is said to be a vowel and and are consonants. A string of and is a word in Zuminglish if and only if between any two there appear at least two consonants. Let denote the number of -letter Zuminglish words. Determine the remainder obtained when is divided by .
Contents
Solution
Solution 1 (recursive)
Let denote the number of -letter words ending in two constants (CC), denote the number of -letter words ending in a constant followed by a vowel (CV), and let denote the number of -letter words ending in a vowel followed by a constant (VC - the only other combination, two vowels, is impossible due to the problem statement). Then, note that:
- We can only form a word of length with CC at the end by appending a constant () to the end of a word of length that ends in a constant. Thus, we have the recursion , as there are two possible constants we can append.
- We can only form a word of length with a CV by appending to the end of a word of length that ends with CC. This is because we cannot append a vowel to VC, otherwise we'd have two vowels within characters of each other. Thus, .
- We can only form a word of length with a VC by appending a constant to the end of a word of length that ends with CV. Thus, .
Using those three recursive rules, and that , we can make a table: For simplicity, we used . Thus, the answer is . (the real answer is .)
Solution 2 (combinatorics)
See solutions pdf.
Solution 3
Let denotes vowel and denotes consonants. Notice that there can be a maximum of 4 s. Specifically, Doing simple casework:
Case : The word contains vowels.
For each , there are choices. There is a total of possible words.
Case : The word contains vowels.
Consider the word We want to incorporate s into the intervals.
If the s are in separate intervals, there are possibilities.
If the s are in different intervals, then one has s and the other has . There are possibilities.
If the s are in the same intervals, there are possibilities.
In total, case holds possible words.
Case : The word contains s.
This is equivalent to inserting s into the word There are possibilities in total.
There possibilities when the s have no s in between them.
There possibilities when the s have in between them.
In total, case holds possible words.
Case : The word contains s.
This is equivalent to inserting into Which has possibilities.
Case : The word contains no s.
There are possible words.
Adding up the 5 cases yields
See Also
Mock AIME 3 Pre 2005 (Problems, Source) | ||
Preceded by Problem 4 |
Followed by Problem 6 | |
1 • 2 • 3 • 4 • 5 • 6 • 7 • 8 • 9 • 10 • 11 • 12 • 13 • 14 • 15 |