Difference between revisions of "2021 AIME I Problems/Problem 3"

(Solution 2 (More Detailed Explaination))
(Solution 2 (More Detailed Explaination))
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<b><u>Case 1:</u></b> The subtrahend (the second number in a subtraction expression) must be greater than <math>24</math> if the minuend is <math>1024</math>. In this case, the subtrahend can be ranging from <math>32</math> to <math>512</math> giving <math>5</math> total choices.
 
<b><u>Case 1:</u></b> The subtrahend (the second number in a subtraction expression) must be greater than <math>24</math> if the minuend is <math>1024</math>. In this case, the subtrahend can be ranging from <math>32</math> to <math>512</math> giving <math>5</math> total choices.
  
<b><u>Case 2:</u></b> If both numbers are powers of two less than <math>1024</math>, then we can choose two numbers from that list and order them to form a positive number. The amount of ways to do this is <math>10\choose2</math><math>=45</math>.
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<b><u>Case 2:</u></b> If both numbers are powers of two less than <math>1024</math>, then we can choose two numbers from that list and order them to form a positive number. The amount of ways to do this is <math>10\choose2</math> <math>=\frac{10\cdot9}{2}=45</math>.
 
In total, there are <math>45+5=\boxed{050}</math> numbers.
 
In total, there are <math>45+5=\boxed{050}</math> numbers.
  

Revision as of 19:28, 11 March 2021

Problem

Find the number of positive integers less than $1000$ that can be expressed as the difference of two integral powers of $2.$

Solution

$\binom{11}{2} = 55$ We need to subtract 5 since $2^{10} - 2^0, 2^1, 2^2, 2^3, 2^4$ don't work. $55-5=\boxed{050}$ ~hansenhe

Solution 2 (More Detailed Explaination)

All of the powers of $2$ subtracted by another power of $2$ that can result within 1000 are $0, 1, 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024$ since $2048-1024>1000$. None of the numbers when chosen two numbers will be the same because the difference of powers of $2$ can be written as a power of two times a non-power of two.

Case 1: The subtrahend (the second number in a subtraction expression) must be greater than $24$ if the minuend is $1024$. In this case, the subtrahend can be ranging from $32$ to $512$ giving $5$ total choices.

Case 2: If both numbers are powers of two less than $1024$, then we can choose two numbers from that list and order them to form a positive number. The amount of ways to do this is $10\choose2$ $=\frac{10\cdot9}{2}=45$. In total, there are $45+5=\boxed{050}$ numbers.

~Interstigation

See also

2021 AIME I (ProblemsAnswer KeyResources)
Preceded by
Problem 2
Followed by
Problem 4
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
All AIME Problems and Solutions

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