1947 Ford Wrecker Hot Rod Classic Project on 2040-cars

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Ford Green Zone works magic with GPS to make your drive smarter, cleaner

For the most part, plug-in hybrids rely on the power stored in the battery until that charge is depleted. Unless the switch can be changed manually, it's only then that the cars fire up the internal combustion engine and begin using the fossil fuels on board. This is ideal, of course, when one's drive isn't long enough that the car needs to start sipping gasoline at all. On longer commutes, when it's certain that the route is longer than the car's all-electric range, this isn't necessarily the most efficient use of energy. Ford's Green Zone system is designed to save some of that juice for the parts of the drive that require slower speeds. Ford is working on a smart system, based on Nokia mapping technology, that uses GPS data to use both the electricity and conventional fuel more efficiently. Since battery power is less efficient at highway speeds, Ford's Green Zone system is designed to save some of that juice for the parts of the drive that require slower speeds, rather than just using up all the electrons right at the beginning of the drive. Using a website or the in-car navigation system, the driver can pinpoint the parts of the route, highlighted in green, where using battery power would be more effective, and set the car to automatically switch to electricity for those sections. Depending on the route, the car could automatically switch back and forth between the two power sources multiple times, particularly if the drive is a mix between city and highway driving. Of course, Green Zone will be go beyond that. The program is being developed to take traffic and road grade into account, details that allow the car to be make even smarter choices to improve efficiency. Ford even hopes to have Green Zone learn driver habits, and respond accordingly depending on who is driving the car. The system could control other features as well, such as anticipating corners and shifting the headlights to better illuminate the road ahead. Green Zone could also potentially use information from vehicle-to-vehicle networking to control functions in the car. The Green Zone system still has a few years before it will be ready to be put into production vehicles, but Ford is confident it will make its way onto the road eventually. As with other innovations that improve efficiency and make our vehicles smarter, we can expect to see similar technology from other manufacturers, until it becomes a regular part of driving in the future.

2016: The year of the autonomous-car promise

About half of the news we covered this year related in some way to The Great Autonomous Future, or at least it seemed that way. If you listen to automakers, by 2020 everyone will be driving (riding?) around in self-driving cars. But what will they look like, how will we make the transition from driven to driverless, and how will laws and infrastructure adapt? We got very few answers to those questions, and instead were handed big promises, vague timelines, and a dose of misdirection by automakers. There has been a lot of talk, but we still don't know that much about these proposed vehicles, which are at least three years off. That's half a development cycle in this industry. We generally only start to get an idea of what a company will build about two years before it goes on sale. So instead of concrete information about autonomous cars, 2016 has brought us a lot of promises, many in the form of concept cars. They have popped up from just about every automaker accompanied by the CEO's pledge to deliver a Level 4 autonomous, all-electric model (usually a crossover) in a few years. It's very easy to say that a static design study sitting on a stage will be able to drive itself while projecting a movie on the windshield, but it's another thing entirely to make good on that promise. With a few exceptions, 2016 has been stuck in the promising stage. It's a strange thing, really; automakers are famous for responding with "we don't discuss future product" whenever we ask about models or variants known to be in the pipeline, yet when it comes to self-driving electric wondermobiles, companies have been falling all over themselves to let us know that theirs is coming soon, it'll be oh so great, and, hey, that makes them a mobility company now, not just an automaker. A lot of this is posturing and marketing, showing the public, shareholders, and the rest of the industry that "we're making one, too, we swear!" It has set off a domino effect – once a few companies make the guarantee, the rest feel forced to throw out a grandiose yet vague plan for an unknown future. And indeed there are usually scant details to go along with such announcements – an imprecise mileage estimate here, or a far-off, percentage-based goal there. Instead of useful discussion of future product, we get demonstrations of test mules, announcements of big R&D budgets and new test centers they'll fund, those futuristic concept cars, and, yeah, more promises.

Junkyard Gem: 1973 Mercury Marquis Brougham 4-Door Pillared Hardtop

Ford's Mercury Division debuted the Marquis in the 1967 model year, as a sporty coupe based on a stretched Ford LTD chassis. When the LTD got an update for 1969, so did the Marquis, and production of that generation of the top-of-the-line Mercury continued through 1978 (the Grand Marquis hit streets the following year). The 1969-1978 Marquis was a big, imposing land yacht, and the Brougham version came absolutely loaded with affordable luxury. Today's Junkyard Gem is a Marquis Brougham from the first year of the Malaise Era, found in a Phoenix self-service car graveyard recently. This car appears to have spent decades sitting outdoors in one of the harshest climates in the country, and so it's in rough shape. The vinyl top received the full thermonuclear treatment and is mostly obliterated by now. The interior got thoroughly cooked as well. Still, its original opulence shines through if you use some imagination. What hurts is that this car was packed with most of the good options, including the mighty 460-cubic-inch (7.5-liter) V8 engine with four-barrel carburetor. The price for the 460 was just $76 in this car, or around $548 in today's money. The base engine was a 429 (7.0-liter). Power numbers were way down for 1973 when compared to a couple of years earlier, partly as the result of tightening emissions standards but mostly due to the switch from gross to net power ratings that began midway during 1971 and was completed by the end of 1972. This engine was rated at 202 horsepower and 330 pound-feet. The only transmission available was a three-speed automatic. We can assume that the original buyer of this car and its single-digit fuel economy had a rough time when the OPEC oil embargo hit in the fall of 1973. Believe it or not, air conditioning was not standard equipment on the '73 Marquis Brougham (you had to move up to a Lincoln for that). This one even has the automatic temperature control feature, adding a total of $508 to the cost of this car (about $3,661 in 2023 dollars). That AM/FM/8-track radio—or, in fact, any radio—was an extra-cost option as well, with a price tag of $363 ($2,616 after inflation). The MSRP for the 1973 Marquis Brougham sedan (known as a "pillared hardtop" thanks to the frameless window glass) was $5,072, which comes to $36,555 in today's dollars. Obviously, its out-the-door cost would have been much higher with all the options.