If Voyager 1 were to remain operational for an extended period of 100,000 years, its trajectory would continue to take it further into interstellar space. Given the vast distances and the limitations of our current technology, it's challenging to determine specific destinations for Voyager 1 within that timeframe. However, I can provide some possibilities based on our understanding of nearby star systems and their characteristics.
Proxima Centauri: Proxima Centauri is the closest known star to our solar system, located approximately 4.24 light-years away. If Voyager 1 were to continue on its current trajectory, it could potentially pass within a few light-years of Proxima Centauri in the coming tens of thousands of years.
Alpha Centauri: Alpha Centauri is a triple star system consisting of three stars: Alpha Centauri A, Alpha Centauri B, and Proxima Centauri. It is located approximately 4.37 light-years away. Voyager 1 might pass near this star system, providing an opportunity for closer observations.
Barnard's Star: Barnard's Star is another nearby star, situated about 5.96 light-years away. It is a relatively faint red dwarf star. Voyager 1 could potentially approach this star over the course of thousands of years.
Gliese 445: Gliese 445 is a red dwarf star located approximately 17.6 light-years away. It is one of the closest known stars outside the Alpha Centauri system. Voyager 1 might come within its vicinity within the given timeframe.
It's important to note that these estimates are speculative, as the precise trajectories of Voyager 1 over such an extended period are difficult to predict accurately. Furthermore, our understanding of stellar systems and the technologies available for interstellar exploration may significantly advance over the course of the next 100,000 years, potentially enabling us to send more sophisticated missions to specific destinations.