Rick Grimaldi

FLEX


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dominated by “clam-shell” phones that were not optimized for the creation or consumption of media or browsing the internet. Although some manufacturers produced cell phones that could be used for these purposes, they relied on small screens, physical keyboards, unreliable trackballs, and low-resolution cameras. This all changed the moment Jobs walked up on the stage.

      In the years following the iPhone's unveiling, the smartphone industry's response to Apple was nothing short of breathtaking. Smartphone manufacturers, including electronic behemoth Samsung, released a flurry of new devices to combat the iPhone's prowess . . . delivering innovative new features such as wireless charging, curved screens, mobile payment options, and improved photography. Other companies, such as Google, were also spurred to create their own smartphone operating systems and larger technological ecosystems.

      In Ireland alone, where Apple's European headquarters is located, iPhone exports were responsible for one-quarter of the country's economic growth.

      In South Korea, exports of semiconductors (a key component in smartphone production) accounted for 17.1% of all of the country's exports. As you can see, smartphone innovation has benefited far more than just consumers. Rather, it's been an engine of economic growth worldwide. And that's just one example of technology reshaping our world, including the world of work.

      Recently, I had a conversation with an Uber driver—a ride-sharing concept that itself was brand new just a decade ago—about the impact of Google Maps on his job. He was animated as we discussed the “flying taxis” currently under development by companies like Tesla that are leading a revolution in alternative energy.

      “Think about it,” he said. “I couldn't do this job with a paper map. Not only that, but I'm pretty sure Uber wouldn't even exist today without Google Maps.” He's speaking, of course, about the importance of GPS, the global positioning system. Thanks to satellites in space that ping our location, we navigate even the remotest areas on the planet with ease.

      Way back in 1968, on the popular sci-fi television series Star Trek, Scotty leaned into his hand console and asked, “Computer, what is the distance between Earth and the Romulan galaxy?” It seemed fantastical at the time . . . that a computer could instantly deliver that information.

      Was he speaking to Siri even back then? Now that students worldwide have been schooled via Zoom, it's easier than ever to imagine a student today working with a partner who is an actual computer, perhaps creating a virtual model of that Romulan galaxy and then sending it to a 3D printer to produce an immediate 3D model of it.

      What was once science fiction is now just a Siri request away. Artificial intelligence is here. Indeed, 21st-century technology has become embedded in our daily lives as an indispensable part of how we work and play.

      The proliferation of apps—everything from meditation and rain sounds while we sleep to Cloud-based task organizing and expense capturing—are available to us for instant download for just $3.99 (as long as you don't mind uploading your credit card data . . . a prospect that was unthinkable just a few decades ago).

      What's more, the Internet of Things has now arrived and is innovating rapidly. What is the Internet of Things, exactly? It's a term describing the billions of physical devices connected to the internet. Each device is equipped to sensors to tune into the ambient environment. And every single one is collecting and sharing your data.

      The Internet of Things includes items as small as a tiny pill that can diagnose clinical information on patients who swallow it and as large as driverless cars and trucks with trailers. Think smart watches that record your daily steps and grade your fitness. Or the heat in your home that switches on automatically when you enter.

      Technology is remaking our world dramatically with everything from brain implants restoring movement in paralyzed patients with spinal cord injuries to gene therapy 2.0, which is curing rare disorders and readying to take on rampant killers such as cancer and heart disease and deadly viruses such as COVID-19.

      Droughts and wildfires in California and the Southwest means forests there are emitting more carbon into the atmosphere than they used. And these greenhouse gas emissions predict a tripling of the number of large wildfires. Meanwhile, ocean waters will warm California coastal waters between 4°F and 7°F by 2100.

      And so it goes. On and on. What does it all mean?

      Is it possible the world can rally long term, as it seemingly did during the pandemic, when threats feel less urgent? Even if we somehow come together soon as one people to address our carbon emissions effectively—to stop or reverse climate change—it's undeniable that much damage has already been done. Sea levels will continue to rise, which will crowd out the populations in low-lying areas that will flood.

      But aside from fundamentally changing the way we live, climate change will also change how we do business and engage in commerce. Just as COVID-19 brought once unthinkable new realities to daily life—such as mask wearing in public