 Quantum computers are meant to address problems that cannot be addressed by classical computers. Things like finding the right materials to enable carbon capture, to really bring the fight to climate change, to address more efficient fertilizers that can not harm the earth, but also continue the food supply chain that we need to feed the world. Also, there's some fundamental questions of how our universe is stitched together and how matter behaves at the atomic and subatomic levels that we need to know it's the next frontier. Let's take one area of research already underway, the search for new batteries. Batteries have transformed our lives by allowing us to carry computers and smartphones, but there's more to be done. Batteries are crucial to our clean energy future. Whether it's powering electric cars or really pushing renewable energy, we need a fundamentally different chemistry to create the batteries for tomorrow. Quantum computing would allow us to effectively look inside the battery during its very complex reactions to enable us to think about new materials and the structure of the batteries that are gonna be needed to power the next generation of devices. How do we get there? By building the world's most advanced quantum devices and a developmental platform and making it available to the world. Only by working together now will we be able to solve the problems that we'll be facing together in the future.