I just bought an apple corer- peeler-slicer, a mechanical devise you attach to a counter top to core and peel apples or pears in preparation for canning or cooking. It is an interesting technology. It has multiple moving parts, and it is all hand-powered. It has no digital controls and it is constructed it entirely from metals. Only the pad at the end of the screw that holds it to the kitchen counter top and the crank handle are plastic.
I suspect someone designed and patented it in the late nineteenth century and that the patent has long run out. I found no patent notice in the paperwork, or on the box, or machine itself. Oh, there is the “Made in China” label! Could I be less surprised? All that international shipping and it is still only twenty-eight bucks. I bought it at a local upscale cookery store.
You will probably not find such devises at big-box stores, which are only interested in mass-appeal items. Who now processes their own fruit? Besides, mass consumer culture demands that all appliances by digitally controlled and electrically powered. Some might consider my new gadget an archaic throwback. Surely, one could have designed an automated electricity-driven device to perform the same function without my hand cranking it.
We have only a couple of fruit trees, one apple and one pear. Several years after planting them, they finally have begun to bear fruit, beyond the one or two seen in recent years until last year and this. Suddenly, in mid-summer we now face baskets full of ripe apples and pears. We have a wine and root cellar, so we can store the fruit for a while as we prepare to can and cook with what we didn’t give away to our friends. Last year, we peeled and cored by hand all the fruit we canned, using kitchen knives for the work. That proved immensely “labor-intensive” and time consuming, so we decided to mechanize the process this year, mostly to save time.
Innovation in technology has played a central role in driving industrial development and economic growth for the past two centuries. The invention of complex mechanical tools and devices allowed craftsmen to make many products efficiently by hand, without steam or fossil-fuel power in the late eighteenth and the nineteenth centuries. Then came the steady onslaught of increasingly automated machinery driven by fossil-fueled engines or fossil-fuel driven electrical motors.
The latest innovations have achieved remarkable success in microelectronics and the miniaturization and acceleration of the speed of electronic technology in processing information. Computer Aided Design (CAD) feeds Computer Aided Manufacture (CAM), now implemented abroad, where the remaining needed human labor is cheapest. We see it everywhere. Automated information processing drives much of industrial production. Industry needs less labor and more intellect to produce more and more consumer products. Those products, in turn, involve more and more abstract engagement of the user with images and symbols built into the product. Products themselves are increasingly detached from the material world, although some involve more and more control at a distance, as in the case of drones.
We know deep down that this cannot last. We are rapidly reaching the material, ecological, and climate limits of fossil-fueled economic growth. Economic growth itself is near terminal. The road ahead requires massive downsizing of energy production, use, and waste. Those who adapt to the use of new as well as clever old technologies driven by human power for human use are far more likely to survive in relatively comfortable and interesting engagement with the real world than those who insist on living in an automated bubble of shrinking life expectancy.