We live in a world of change, and the pace of change is accelerating.
Just think about the what has occurred over the last 50 years.
We have gone to the moon, created skyscraper cities, moved from manual labour to sitting punching computers, driving everywhere instead of walking, extracting multiples of productivity from mechanised farming, and polluting the planet in very creative ways.
Computer chips have changed us. Gordon Moore noted in ‘Electronics’ magazine in 1965 that the number of transistors in a silicon chip was doubling roughly every two years. This has held true for 60 years, becoming known as Moore’s Law. The smart money now is saying that after that geometric growth, we are reaching the end of the physical capabilities of the current technologies and materials, and something new is needed.
I keep hearing about quantum computing and neuromorphic chips. I have no real idea what these are, but it seems the experts are saying there are huge advances to be made, and the door is only just opening.
The impact ChatGPT has had since its public release in November 2022 is a case in point, proving Hemmingway’s notion that ‘the future comes slowly, then all at once’.
Genetic engineering has gone from a multi-billion multi-year effort to map the human genome, completed in 2003, to getting your own genome mapped in a week for a few dollars. The interaction of the genome, our biology and genetic engineering via another new technology, CRISPR, will change again not just us, but the manner in which we interact with the natural world around us. Early applications of this technology are fuels coming from algae, genomic vaccines for cancer and all sorts of human afflictions. Again, we are just at the door.
Material science is an emerging field compounding almost weekly. We have all sorts of carbon fibre composites in many applications, a range of durable, biocompatible materials for human parts replacement from joints to teeth and heart stents, and almost daily hear about advances in honeycombed graphene, ‘flow’ batteries, and flexible display materials.
I guess you just have to look at the drop in price of solar panels and the impact that has had on the generation of power to see the power of this branch of science. It takes a while to get started, to generate early economies of scale, then compounding really kicks in.
Wrights law at work.
While this is happening around us, the lesson is that it will change the world. Being prepared to accommodate the changes is way better than trying to adapt after the environment has changed, when you are chasing the ball, instead of being in front of it. The fact that change is uncomfortable for most is both a barrier and an opportunity.