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2015 Hennessey Ford Mustang hits 207.9 mph

After hitting over 195 miles per hour a few months ago, John Hennessey was barely out of his personal HPE700 Mustang before he said that 200 mph was achievable. Don't doubt a man who knows a ton about taking cars to insane speeds. With the new HPE750 Mustang, he and his customers can finally surpass the 200-mph mark in their cars. "If at first you don't succeed, just add more horsepower and rpm and try again," Hennessey said in the company's announcement. Rather than the 717 horsepower and 632 pound-feet of torque from the supercharged 5.0-liter V8 in the HPE700, the HPE750 ratchets the same powertrain up to an even more potent 774 hp and 648 lb-ft. In a real show of confidence, the Hennessey team brought along Jay Leno when it returned to the Continental Tire Proving Grounds in Uvalde, TX, to set a new top speed with the HPE750. The upgrades to the Mustang definitely paid off because the pony car reached a GPS-verified 207.9 miles per hour down the straight. The run will eventually appear on a segment on the upcoming Jay Leno's Garage TV show that will air CNBC. Prices for the HPE750 start at $59,500 USD, including the base 2015 Mustang GT, but building an exact replica of this one would cost $69,374, according to Hennessey. In addition to the huge top speed, the company claims that the coupe can reach 60 mph in 3.4 seconds and cover the quarter mile in 10.9 seconds. 774 HP Hennessey Mustang Tested to 207.9 mph Jay Leno visits Texas tuner for upcoming TV series on CNBC June 2, 2015 Uvalde, Texas—On Wednesday, May 27, 2015, professional driver, Brian Smith, drove the Hennessey HPE750 Supercharged Mustang to a top speed of 207.9 mph. In the process, Hennessey's potent pony car became the first 2015 Mustang to break the 200 mph mark. Jay Leno was on hand to witness the record speed while filming an upcoming episode of Jay Leno's Garage, which will air on CNBC later this year. The run was made on the 8.5 mile high speed oval at the Continental Tire Proving Grounds located in Uvalde, Texas – the same test track where John Hennessey test drove the company's HPE700 Mustang to a top speed of 195 mph back in February of this year. During both tests, speeds were validated with Racelogic's VBox 3i GPS data logging system. "If at first you don't succeed, just add more horsepower and rpm and try again," said company founder and president, John Hennessey.

Ford wants smart cruise that's speed and grade sensitive

Ford is working to make adaptive cruise control even smarter and more economical for future vehicles. The automaker now has a patent (pdf link) on a system to use information on the grade of the road, traffic data, and a driver's preferences to eke out better fuel mileage over a journey. This solution would essentially put a little hypermiling right into a model's software. The Blue Oval's patent refers to this tech as "route navigation with optimal speed profile," and the system starts by splitting the way to the driver's ultimate destination into many smaller pieces. Each one is analyzed based on GPS data, and traffic info is also constantly updated. Based on the occupants' preferred travel time, all this info is combined to figure out the most efficient speed for each leg of the journey. All of these calculations are actually more than the car's computers can handle, so some of the math is offloaded to a cloud-based network. According to Ford, some of the benefits come when tackling hills while diving. Maintaining a single speed when going up and down steep grades isn't the most efficient method, but current technology can't easily make the necessary adjustments. This system uses the GPS data to adapt the vehicle's speed and leave the situation with better fuel economy. Ford is currently making major investments into autonomous driving technology and has some prestigious partners. While the patent documents don't specifically mention the optimal speed profiles for driverless vehicles, they seem like a natural fit. Over the course of an entire trip, the fuel economy gains would likely be even greater than over a few miles on a relatively flat interstate.

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.