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First Ford Mustang prototype shots caught by legendary spy shooter Jim Dunne

You know how people refer to someone as having "been around the block" to mean they're very experienced? Well, when it comes to automotive spy photography, Jim Dunne actually laid down the concrete slabs of the block's sidewalk. The unforgettable Dunne more or less invented the car spy game - a fact he cemented by writing book called Car Spy - and has been delivering spy shots and reporting on the industry for some 45 years now. (He also once employed this writer as his impromptu personal chauffer on a Volkswagen trip in Germany, while he slept, but that's a story for a different time.)
In any event, Dunne must be on a mission to prove that "elder statesman" doesn't also mean "washed up" as it is his shots of the upcoming new 2014 Ford Mustang that we've been handed by our friends at KGP Photography.
Mr. Dunne has likely spent the last few years obtaining powerful telescopic lenses, as the Ford in question has clearly been photographed from some distance. Nevertheless, what you see here is visual evidence that the sixth-generation Mustang has moved beyond the mule stage, and is now testing in proper prototype form. Sources indicate that there are production-spec body panels under that baggy canvass dress; but the slightly less bulky silhouette of the new car can be just made out. While the car's bumpers have been removed to obfuscate things, we can tell by way of the camo's apertures that the car's taillights have moved upwards and towards the lip of the tail. A fender vent appears to be visible, too, just behind the front wheel.

Ford, Samsung shack up to bring regen braking to non-hybrid models [w/video]

Ford must be desperate to get itself ready for the beach this summer because it is really trying to get into shape. Shortly after unveiling the Lightweight Concept that cut the weight of a Fusion down to that of a Fiesta, it's now the rest of the line's turn for improvement. The company is wrapping up a 10-year research project aimed at developing next-gen automotive batteries to improve efficiency.
Ford claims that 70 percent of its lineup will have stop/start tech by 2017. The key to this massive proliferation is its new dual-battery system that combines a lithium-ion battery with a lead-acid one and regenerative braking. The setup works by harvesting braking energy and converting it to electricity. When the vehicle stops, the engine shuts off, but the Li-ion battery has enough juice to keep the accessories running. The engine starts up again as drivers take their foot off the brake. The layout would mean less wasted gas while idling. It's already available on Ford hybrids and is somewhat similar to the i-Eloop capacitor-based system from Mazda.
The bigger challenge is tuning the regenerative braking right. While hybrid drivers may be a little more adventurous, when it comes to getting a hang of regen braking, conventional buyers might not be so open-minded. The systems have a tendency to be a little grabby at first and then taper off at very low speeds. Ford needs to make sure it's just right to avoid turning off buyers.

How Ford switched gears for the all-new F-150

Editor's Note: This story is authored by Julia Halewicz, a senior editor with AOL's Custom Solutions Group. She holds a Masters in Journalism from NYU and has spent her career as an editor of various newspapers, magazines and digital outlets. Last year on the Friday before Labor Day, the 2014 Ford F-150 pickup truck came off the Dearborn assembly line for the last time. After the last seam was welded, the F-150 that had been so beloved by American consumers would begin the transition from traditional steel manufacturing to an aluminum body, and the second phase of Ford's 2007 blueprint for sustainability would begin. Jobs would be created, and Ford would deliver a stronger product to its consumers. It was a moment Ford would call the biggest in the company's 111-year history. Breaking The Mold For some, the change was almost unfathomable. How could a truck be made with aluminum, and why change what clearly was working very well for the company? "We have a saying at Ford that leaders lead," said Doug Scott, the company's truck group marketing manager. "This was an ideal product to make with aluminum-alloy, because lightweighting made so much sense for a truck, because the extent to which you could take weight out of a truck, you could add more value to the customer in terms of more towing, more payload, more durability, more efficiency – so again all this required us to be out in front further out in front that we normally would be to make sure that we would deliver on all those expectations." Ford began the planning process about five years before the first aluminum F-150 would come to market. The company had a lot of questions. What was customer acceptance of aluminum, could they build the truck, and could the truck be repaired out in the field? Finally, Ford needed to determine if there were enough materials available to support the demand for the F-Series. Aluminum vehicles aren't unusual, but had never been built on the scale of the F-150 – approximately one every minute. Ford created two prototypes to determine if the product would meet and exceed consumer expectations. Any change to the vehicle had to be justified in performance, safety and economy. An aluminum truck needed to be safer, lighter, have increased payload, haul more, and have improved fuel efficiency. After driving the prototypes, Ford knew it was ready to move forward. Once the aluminum truck was ready to build, the next challenge was quickly transforming the plant.