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| Format: | Recurso digital |
| Language: | English |
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Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.20131703 |
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Table of Contents:
- <p>Mathematical Framework: The Computational Entropy and Binary Collapse of the Collatz Conjecture</p> <p>Date: May 12, 2026</p> <p>Subject: Analysis of the 3n + 1 Procedure as a Binary Stochastic Process</p> <p> 1. Operational Mechanics</p> <p> The Collatz Conjecture is traditionally viewed as a sequence of arithmetic operations. This framework redefines it as a Bit-Stream Manipulation protocol operating on positive integers represented in Base-2 (Binary).</p> <p>Operation A (The Right-Shift): For any even n, the operation n divided by 2 is equivalent to a logical right-shift, effectively removing a zero-bit from the least significant position.</p> <p>Operation B (The Bit-Injection): For any odd n, the operation 3n + 1 is executed as (n + 2n + 1). In binary terms, this is an addition of the original bit-string to its own left-shifted version plus a carry-bit, which increases the total informational density or bit-length.</p> <p> 2. The Parity-State Engine</p> <p> The trajectory of any number can be mapped as a transition between High-Entropy (Odd) states and Low-Entropy (Even) states.</p> <p>Bit-Growth Equation: For an odd number n, the 3n + 1 operation typically increases the bit-length by approximately 1.58 bits.</p> <p>Bit-Reduction Equation: The division by 2 to the power of k (where k is the number of trailing zeros) reduces the bit-length by k bits.</p> <p> 3. The Snapback Hypothesis</p> <p> This proposal suggests that the 4-2-1 loop acts as a Global Informational Sink.</p> <p>Step 1. Statistical Dominance: While the 3n + 1 operation increases the value, the subsequent division by 2 occurs with a frequency that suggests a geometric distribution. On average, half of all resulting numbers will be divisible by 2, a quarter by 4, an eighth by 8, and so on.</p> <p>Step 2. Negative Divergence: The expected change in the natural logarithm of the number after one full Odd-to-Even cycle is calculated as the natural log of 3 minus 2 times the natural log of 2, resulting in approximately -0.287.</p> <p>Step 3. Conclusion: Because the expected value of the change is negative, the Pressure of the right-shifts will always eventually overcome the Injection of the 3n + 1 operations, forcing the system to collapse toward the lowest possible energy state: 1.</p> <p> 4. Loop Exclusion Theory</p> <p> To disprove the existence of any loop other than 4-2-1, one must prove that for any sequence of x up steps and y down steps, the final value cannot return to the starting value. This implies that the ratio of 3 to the power of x compared to 2 to the power of y can never perfectly balance the additive offset created by the + 1 in the 3n + 1 operations to return to the starting value n.</p> <p>Keywords: Collatz Conjecture, Binary Logic, Computational Entropy, Bit-Shift Dynamics, Mathematical Sink, Number Theory.</p> <p> </p>