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kottke.org posts about A Brief History of Motion

Have We Reached Peak Car?

Tom Standage, whose The Victorian Internet was hugely influential to me in how to think about the history of technology, is out with a new book on transportation and cars: A Brief History of Motion: From the Wheel, to the Car, to What Comes Next (ebook). In this excerpt, he argues that the world has reached “peak car” โ€” “the point at which car ownership and use level off and start to decline”.

Evidence for peak car in Western countries, meanwhile, has been accumulating for some time. In America, the total number of vehicle miles traveled has continued to increase. But it has been growing more slowly than both the total number of vehicles and the population. The number of miles driven per vehicle, and per person of driving age, both peaked in 2004 and have since fallen to levels last seen in the 1990s. The average distance driven per person per year peaked in the 2000s or earlier in many Western cities including London, Stockholm, Vienna, Houston, and Atlanta. In Australia, Belgium, Britain, France, Germany, Italy, Japan, New Zealand, and Spain, distance traveled per person has been flat or falling since the early 2000s (in Britain, the average motorist drove seventy-six hundred miles in 2018, down from ninety-two hundred in 2002). Miles traveled by car per annum per capita in Italy, Britain, the Netherlands, and Sweden peaked in 2000, 2002, 2004, and 2005 respectively.

See also this interview with Standage in Grist (which features the phrase “horse-drawn transport monoculture”).

The pandemic caused a drop in driving, and then an uptick as people came out of lockdowns and decided, in some cases, that they would rather drive than use public transit. But the longer-term trend seems clear: driving is becoming less popular, because it’s becoming less convenient, and the alternatives are becoming more convenient. The growing prevalence of remote working may encourage people to move to urban fringes where it’s difficult to live without a car, but overall I don’t think this will be enough to reverse the longer-term trend.

And here’s another excerpt of Standage’s book from The Guardian: The lost history of the electric car โ€” and what it tells us about the future of transport.

In 1897, the bestselling car in the US was an electric vehicle: the Pope Manufacturing Company’s Columbia Motor Carriage. Electric models were outselling steam- and petrol-powered ones. By 1900, sales of steam vehicles had taken a narrow lead: that year, 1,681 steam vehicles, 1,575 electric vehicles and 936 petrol-powered vehicles were sold. Only with the launch of the Olds Motor Works’ Curved Dash Oldsmobile in 1903 did petrol-powered vehicles take the lead for the first time.

Perhaps the most remarkable example, to modern eyes, of how things might have worked out differently for electric vehicles is the story of the Electrobat, an electric taxicab that briefly flourished in the late 1890s. The Electrobat had been created in Philadelphia in 1894 by Pedro Salom and Henry Morris, two scientist-inventors who were enthusiastic proponents of electric vehicles. In a speech in 1895, Salom derided “the marvelously complicated driving gear of a gasoline vehicle, with its innumerable chains, belts, pulleys, pipes, valves and stopcocks … Is it not reasonable to suppose, with so many things to get out of order, that one or another of them will always be out of order?”

The two men steadily refined their initial design, eventually producing a carriage-like vehicle that could be controlled by a driver on a high seat at the back, with a wider seat for passengers in the front. In 1897 Morris and Salom launched a taxi service in Manhattan with a dozen vehicles, serving 1,000 passengers in their first month of operation. But the cabs had limited range and their batteries took hours to recharge. So Morris and Salom merged with another firm, the Electric Battery Company. Its engineers had devised a clever battery-swapping system, based at a depot at 1684 Broadway, that could replace an empty battery with a fully charged one in seconds, allowing the Electrobats to operate all day.