My name is Jack, and I am very interested in technical things. I find things like the limits of technology to be supremely fascinating. The limitations of reality are also equally fascinating, which brings us to quantum physics. As we know them, relativity and physics will break down on extremely small or large scales, and quantum physics is a way to study and understand these new rules. Creating new things from nothing, such as programming, is another interest. Understanding how tokamaks are used for nuclear fusion is another bullet point in this eclectic list. Thankfully, Youtube has excellent channels like PBS Spacetime or Arvin Ash to illustrate how a tokamak confines a plasma using magnetic fields in a torus (US Department of Energy, n.d.). 

    In this class, we students will learn about tomorrow's technology and how innovation can enable us to realize that technology sooner rather than later. It's about understanding where we'll be in the next few decades and how we'll get there. Today's technologies are continually undergoing enhancements and rebuilds to better suit the needs of the future. Because of this innovation, other technologies are introduced while the originals become more efficient. 

    This blog will focus on a few different topics such as technology, quantum physics, programming, and space. While these topics are quite different, they can also explain or assist with the other issues. The Quantum Computer Language (QCL) resembles the C programming language and translates ideas into instructions that can be executed by a quantum computer (Heim, B. et al., 2020). This way, it can help us learn more about quantum physics and manipulate it. Quantum physics will allow us to build better computers through quantum computing. Technology will continue to find new innovations to help us explore space. Space will enable us to research new technologies in a different environment. Everything is connected, and everything is also quite exciting when you start to dig into it. 

References

Heim, B., Soeken, M., Marshall, S., Granade, C., Roetteler, M., Geller, A., Troyer, M., & Svore, K. (2020). Quantum programming languages. Nature News. Retrieved December 15, 2021, from https://www.nature.com/articles/s42254-020-00245-7

US Department of Energy. (n.d.). Doe explains...tokamaks. Energy.gov. Retrieved December 15, 2021, from https://www.energy.gov/science/doe-explainstokamaks