By popular demand, Washington Gas is sharing the holiday LinkedIn post from President Blue Jenkins. The coming year will be an exciting chance for collaboration and putting real-world energy principles into action to serve our DMV communities.
Ifย youย regularlyย read my LinkedIn posts and articles โ and thank you for that! โ youย might have noticedย that energy and its place in our lives is always on my mind. To paraphrase aย holidayย quote so famous thatย I knowย it withoutย having seenย theย movie, โIf you look for it, Iโve got a sneaky feelingย energy, actually,ย is all around.โ
For example, right here in my office is a Newtonโs Cradle, and watching it move is a metaphor in motion. The laws that govern energy, from the quantum realm to utilities infrastructure, are all encapsulated in one elegant toy. Whether it is the goal of perfect conservation or the sneaky theft of friction, some of the most powerful principles in the Universe are in play on my desktop.
Consider the law of the Conservation of Momentum, which states that momentum inside a closed system stays constant unless an external force acts upon it. Thatโs why the motion of one ball transfers seamlessly through the others, moving the last ball with nearly the same momentum.
In everyday life, momentum ensures smooth energy flow, encompassing everything from natural gas pipelines to electric power grids. Thoughtful policies and partnerships across sectors help maintain progress and ensure we produce reliable supplies to meet growing global demand.
AI data centers illustrate this trend well, creating massive demand for their functions. In everyday terms, ChatGPTโs annual consumption is projected to reach 226.8 GWh per year, enough to fully charge about 95% of the electric vehicles currently in the United States. Natural gas helps maintain the momentum of our interconnected systems by providing consistent energy when other sources may fluctuate.
Simply stated, the Conservation of Energy principle tells us that energy is never created or destroyed but only changes in form. When you lift the first ball on Newtonโs Cradle and let it drop, that force transforms from potential to kinetic energy and transfers efficiently to the next sphere.
Robust systems depend on conserving resources, and innovations like Combined Heat and Power (CHP) systems are a great example of this principle. Using a single fuel source like natural gas, CHP generates electricity and thermal energy, maximizing utilization by up to 95%. This approach improves efficiency andreliability, keeping operations running even during unexpected interruptions.
When you think of steel, you may not think of Elasticity, but that is actually a key trait of Newtonโs Cradle. An object returns to its original shape after being stretched or compressed, minimizing energy loss during sphere collision. No material can return 100% of its energy because some of it is lost over time as heat and sound.
Elasticity isnโt just a desk toy concept; it’s something we see daily within ourutility systems. One instance is when natural gas is readily available during demand surges, helping power critical facilities like hospitals. Adaptive technologies can help make our energy systems more resilient and respond dynamically to evolving needs.
If I have a favorite energy principle, itโs probably Synergy: the combined effect that makes a whole system greater than the sum of its parts. In the case of Newtonโs Cradle, each ball depends on all the others to keep the motion going.
Synergy is at the core of modern energy systems, which perform best when diverse sourcesโnatural gas, electricity, wind, solar, and other emerging technologiesโwork together. A strong, interconnected approach supports safety and affordability, especially as global demands spike. This principle also lies at the heart of assistance programs to help those experiencing utility energy insecurity, especially within underserved communities.
While synergy shows us what is possible when everything aligns, frictionreminds us of challenges that can disrupt progress. Newtonโs Cradle would swing and sway forever in a world of perfect conservation. In reality, resistance at critical pivot points and during sphere collisions gradually slows and stops forward motion.
Friction shows up differently across our utility systems: inefficiencies, outdated infrastructure, regulatory hurdles, competing priorities, and occasional misinformation. While different perspectives are positive and lead to greater strength, misaligned resistance can waste valuable time and resources, create needless tension, and slow progress.
But there is good news here. As president of Washington Gas, I see firsthand how my colleagues across all industries work together to unlock the full potential of industry-wide synergy. We know perfection doesnโt exist, but itโs within our power to resolve issues together and keep innovation moving forward.
This matters tremendously because energy isnโt a one-size-fits-all proposition. Empowering families and businesses with robust choices is the right thing to do and the smart path forward to help build resilient communities.
Universal energy fundamentals connect us all, from powering our individual homes to meeting massive global demand. That principle of scale is why all Newtonโs Cradles function the same, from gigantic editions with 250-pound spheres to their quantum cousins. Whether itโs invisible electrons, metallic spheres, or sprawling energy systems, synergy, momentum, and efficiency are always at work around us.
Iโm excited for 2025 and ready to participate in collaborative, real-world principles in action. They remind me of what matters most: making sure that energy flows smoothly and reliably to power the lives of the communities we serve.
Like the red ribbon on my teamโs gift, this post wraps up 2024 with a bow. Wishing all of you a Happy New Year!
