1997 AHSME Problems/Problem 30
Contents
Problem
For positive integers , denote by the number of pairs of different adjacent digits in the binary (base two) representation of . For example, , , and . For how many positive integers less than or equal to does ?
Solution 1
If is even, then the binary expansion of will both begin and end with a , because all positive binary numbers begin with a , and if you switch digits twice, you will have a at the end. Thus, we are only concerned with the odd numbers between and inclusive.
All of these odd numbers will have an even . will be given by the numbers , which is a total of numbers.
We skip for now, and move to , which is easier to count. The smallest happens when . To get another number such that , we may extend any of the five blocks of zeros or ones by one digit. This will form , all of which are odd numbers that have . To find seven digit numbers that have , we can again extend any block by one, so long as it remains less than or under. There are five cases.
1) Extending is impossible without going over .
2) Extending by putting a at the beginning will go over , but the other four extensions work, giving .
3) Extending by putting a at the beginning will go over , but the other four extensions give . However, already appeared in #2, giving only three new numbers.
4) Extending at the first group is impossible. The other four extensions are , but the first two are repeats. Thus, there are only two new numbers.
5) Extending at the first group is impossible. The other four extensions give , but only the last number is new.
Thus, there is five digit number, six digit numbers, and seven digit numbers under for which . That gives a total of numbers.
There smallest number for which is , which is under . Further extensions, as well as cases where , are not possible.
Thus, we know that there are odd numbers that have , and odd numbers that have , and number that has . The remaining odd numbers must have . This means there are numbers that have , which is option
Solution 2
Each pair of different adjacent digits corresponds to a change from one a chain of 1s to a chain of 0s or vice versa. For example, in the number there are 2 such pairs and also 2 changes (three 1s change to two 0s, then change back to 1). Thus, in a number with 2 changes, there will be three "blocks" of consecutive digits. Since the number always starts with a 1, each valid number will have the form
The total number of digits cannot exceed . If the number has 6 digits in binary or less: this is equivalent to solving , where represent how many 1s, 0s, and 1s are in the three blocks. Using stars and bars, we find that there are valid binary numbers.
If the number has digits: we see that there are numbers for which the second digit is 0, and only 1 valid number for which the second digit is 1 (97 is 1100001 in binary). Thus, we have a total of valid numbers.
See also
1997 AHSME (Problems • Answer Key • Resources) | ||
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