2005 Ford Freestar Sel Mini Passenger Van 4-door 4.2l on 2040-cars

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How Ford made its 2015 Ford Mustang safer for toupee wearers [w/video]

Ford is ready to tell the story of its 2015 Mustang Convertible, the can't-miss bits being the easier, quicker and quieter roof operation, a more robust roof build for a coupe-like cabin noise, more trunk space, better visibility and reduced in-cabin buffeting. The top release system has been completely redesigned with a single, center-mounted latch on the windshield frame instead of the dual latches of before. The driver can now release the roof without having to lean over into the passenger space, after which the top goes down fully automatically with the press of a button. Ford doesn't say how long it takes to stow, but it's apparently done in half as much time as before, so figure around 8 seconds.
The roof uses a five-bow structure, with the fabric outer and full inner headliner sandwiching ten millimeters of insulation. Detailing work on the top has eliminated "unsightly folds" in the corners when the roof is up and made it more compact when down; its Z-fold assembly is 6.7 inches lower than before at its highest point when put down. Ford says the new electric drive internals make less noise when in operation, and the fully-finished droptop look is achieved with snap-in caps that flank the rear seating and stow in the trunk when not in use (the outgoing Mustang's top was higher and the front when folded and always looked like it was catching air and creating drag).
The compact roof and newly independent rear suspension setup in back means liberated trunk space, 11.4 cubic feet ready to swallow golf bags and tourist swag. You can read a lot more about it in the press release below, check it out in the short video of running footage and learn about the aerodynamic improvements made to the entire Mustang lineup that decrease drag and increase fuel economy.

The next-generation wearable will be your car

This year's CES has had a heavy emphasis on the class of device known as the "wearable" – think about the Apple Watch, or Fitbit, if that's helpful. These devices usually piggyback off of a smartphone's hardware or some other data connection and utilize various onboard sensors and feedback devices to interact with the wearer. In the case of the Fitbit, it's health tracking through sensors that monitor your pulse and movement; for the Apple Watch and similar devices, it's all that and some more. Manufacturers seem to be developing a consensus that vehicles should be taking on some of a wearable's functionality. As evidenced by Volvo's newly announced tie-up with the Microsoft Band 2 fitness tracking wearable, car manufacturers are starting to explore how wearable devices will help drivers. The On Call app brings voice commands, spoken into the Band 2, into the mix. It'll allow you to pass an address from your smartphone's agenda right to your Volvo's nav system, or to preheat your car. Eventually, Volvo would like your car to learn things about your routines, and communicate back to you – or even, improvise to help you wake up earlier to avoid that traffic that might make you late. Do you need to buy a device, like the $249 Band 2, and always wear it to have these sorts of interactions with your car? Despite the emphasis on wearables, CES 2016 has also given us a glimmer of a vehicle future that cuts out the wearable middleman entirely. Take Audi's new Fit Driver project. The goal is to reduce driver stress levels, prevent driver fatigue, and provide a relaxing interior environment by adjusting cabin elements like seat massage, climate control, and even the interior lighting. While it focuses on a wearable device to monitor heart rate and skin temperature, the Audi itself will use on-board sensors to examine driving style and breathing rate as well as external conditions – the weather, traffic, that sort of thing. Could the seats measure skin temperature? Could the seatbelt measure heart rate? Seems like Audi might not need the wearable at all – the car's already doing most of the work. Whether there's a device on a driver's wrist or not, manufacturers seem to be developing a consensus that vehicles should be taking on some of a wearable's functionality.

UK's Loughborough University improving Ford's 1.0-litre EcoBoost engine

How much does it cost for college students to study zero emissions vehicles? At Loughborough University in the UK, a new Advanced Propulsion Centre (APC) is being built at a cost of a billion pounds ($1.7 billion US). The school has just announce that it will fund a number of grad student positions and is creating a new Chair in Advanced Propulsion Systems, which sounds like a fun job to us. We're weird like that. There will be a total of four professor-type positions in the new Center, including the chair, all focused on teaching students about low-carbon vehicle technologies, specifically electric and hybrid ones. The school is investing 1.5 million pounds ($2.5 million) for the new positions. There is a bigger picture as well, a 26-million pound ($44 million) Advanced Combustion Turbocharged Integrated Variable-valvetrain Engine (ACTIVE) project, which uses funds not only from the school but also from Ford and others. The point of ACTIVE is to study Ford's 1.0-liter EcoBoost engine and "improve further its efficiency and ensure it exceeds 2020 emission regulations." This is already a popular engine for the automaker, and it will need to stay at the bleeding edge of efficiency to remain as important in 2020 as it is today. Loughborough University has been working with automakers on advanced energy technologies for years, for example with Rolls-Royce and fuel cells in 2007 and the Lotus Hotfire engine in 2008. University invests GBP1.5M in advanced propulsion research to advance zero emissions vehicles challenge Loughborough University is investing GBP1.5M over five years in strategic research appointments, inspired by the global challenge to develop the new advanced propulsion technologies required for the move to zero emission vehicles. These appointments reinforce the University's world-class research in low-carbon vehicle technologies, adding new dimensions concerned with electric and hybrid drives. Four appointments will be made, including a Chair in Advanced Propulsion Systems, supported by a number of PhD studentships. The GBP1.5M investment is part of the University's commitment to the recently announced Advanced Propulsion Centre (APC) to support the development of new supply chains for low carbon vehicles. APC is an initiative established by the Automotive Council that will see GBP1 billion of investment from government and industry over the next 10 years.