1997 Ford F350 In Sunny Arizona on 2040-cars

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BMW V8-powered Ford Model A is the definition of Hot Rod

Today, hotrodding has a pretty staid definition. Take one classic American car, add one classic American V8, sprinkle with tire smoke and you pretty much have every hot rod to roll out of a shop in the last 40 years. Mike Borroughs knows it wasn't always this way. Once upon a time, getting your bucket to go faster meant grabbing whatever parts were lazing about the yard, bolting them together with a bit of ingenuity and laughing your way down the quarter mile. It's in that spirit that Burroughs built his 1928 Ford Model A.
Rather than turn to the tired flathead or the common Chevrolet small block, Burroughs plucked a 4.0-liter V8 from a 1995 BMW 7 Series. With 300 horsepower and 300 pound-feet of torque, the engine has no trouble shuffling the old A around town. He had to build a custom chassis to get everything to cooperate, but the result is a 1,500-pound heathen that looks built to harass dry lake beds. You can check it out in the video below. Be warned, the soundtrack by Hanni el Khatib may not be safe for work - awesomeness of this caliber rarely is.

The 1965 Ford Mustang could have looked a lot different

The 1965 Ford Mustang is unquestionably an automotive design icon, and nearly every generation of Mustang has some connection to that original car. Because it's such a universally-known vehicle, we were amazed to see all the different designs that were being considered. Head of Ford's archives Ted Ryan recently shared photos of design proposals for the original Mustang on Twitter that he and Jamie Myler found, and we reached out to them to find out more. As Ryan initially noted, the photos were taken on August 19, 1962, and they are proposals for the Ford Mustang. Apparently Ford had committed to doing a Falcon-based youth-oriented car at this point, and it did have plans to launch the car in 1964 for the 1965 model year. But after having little success with early design proposals, the company asked all of its design studios — the Advanced Studio, Lincoln-Mercury Studio and Ford Studio — to submit proposals. With only about two years before the planned launch, Ford was understandably short on time, and it's believed that the studios only had a month to create and present these designs. Lincoln-Mercury design proposal View 8 Photos The majority of the designs, a total of five, came from the Advanced Studio, and part of this was because they already had a couple of concept designs in reserve it could present. Two other models representing three design possibilities came from Lincoln-Mercury, and just one model with two options came from Ford. The Advanced Studio proposals are shown in the gallery at the very top of this article, and the Lincoln-Mercury and Ford proposals are in the gallery directly above this paragraph. The Advanced Studio's most radical design is the one that was clearly related to the Mustang I concept that would be shown later that year with huge wraparound rear glass, turbine-inspired bumpers and enormous side scoops. The other proposals from the studio were more conservative, featuring simple lines, grilles reminiscent of the Falcon, and one even borrowing the jet-thruster-style taillights made famous on the Thunderbird. Lincoln-Mercury had some impressively bold designs, particularly its fastback that had buttresses to extend the shape all the way to the tail. This car had two different side trim possibilities. The other Lincoln-Mercury design was toned down a bit, but had two interesting possibilities for side detailing, as well as some crisp, low-profile tail fins.

Recharge Wrap-up: Ford's "snowtonomous" Fusion Hybrid, Porsche eyes battery makers

Bosch and Panasonic are vying to be the battery supplier for Porsche's electric sports car based on the Mission E concept. While Bosch's costs may be higher, its solution would offer simpler logistics. Panasonic is already well established as a battery maker, providing the packs for the Porsche car's rival, Tesla. "We're in the final stage of making a decision," says Porsche CEO Oliver Blume, declining to comment on specific manufacturers. Neither Bosch nor Panasonic provided comment. Read more from Automotive News. Renault will supply a fleet of 150 Renault Zoe EVs for a smart solar charging project in Utrecht, Netherlands. The project involves the installation of 1,000 EV chargers powered by 10,000 photovoltaic panels. The Renault Zoes would be used as part of a carsharing program powered by the solar chargers. Renault and its partners will also implement a vehicle-to-grid system to provide energy during peak demand from the solar chargers and connected EVs. Read more in the press release from Renault. Ford has been testing an autonomous Fusion Hybrid prototype that is capable of driving itself in snowy conditions. Ford uses 3D mapping to scan the drive route. Its LiDAR laser mapping can even detect single falling snowflakes. It collects and processes up to 600 gigabytes of data per hour, comparing its environment to saved maps, a process that helps establish location more precisely than GPS. In addition to the LiDAR systems, the car is also equipped with cameras and radar to help it navigate. Eventually, the car could even be able to clean off its sensors when it detects loss of performance from ice and dirt. Read more in the press release below. FROM AUTONOMY TO SNOWTONOMY: HOW FORD FUSION HYBRID AUTONOMOUS RESEARCH VEHICLE CAN NAVIGATE IN WINTER DEARBORN, Mich., March 10, 2016 – Driving in snow can be a slippery challenge, with the potential for one blizzardy gust to white-out your field of view – a situation faced by the majority of people in the United States. So if self-driving cars are to become a reality – and they almost certainly will – they must be able to navigate snow-covered roads. In its quest to bring self-driving vehicles to millions of people around the world, Ford reveals six facts about its technology that allows for a car to drive itself in snow. 1. Mapping the way: Ford first creates high-resolution 3D maps using LiDAR technology to scan the area its autonomous vehicle will later drive in the snow.