Watch this cool video of Wolf of Wall Street star Margot Robbie driving a 100% electric Nissan BladeGlider through the streets of Monte Carlo.
The actress tested the Nissan BladeGlider – which can hit 62mph in less than five seconds – against an identical car on closed roads in the iconic French Riviera Principality.
The three-seater prototype, which hits 100km/h in less than five seconds, challenges the conventional thinking of what an all-electric sports car could look like in the future.
Showcasing all the fun and excitement of pure electric vehicles, the concept is part of Nissan’s Intelligent Mobility vision of how cars should be driven, powered and integrated into society.
In the video, the Suicide Squad and The Wolf of Wall Street star is also seen demonstrating the drifting prowess of Nissan BladeGlider around one of the most famous corners in the world of motorsport – the iconic Fairmont Hairpin.
“It’s a really exciting time for electric vehicles,” said Margot, Nissan’s first electric vehicle ambassador.
“More people are choosing to go electric, leading the way to a more sustainable future and the Nissan BladeGlider hints at the future of smarter performance cars.”
Selling Your Car? Here’s How to Get the Best Idea of What It’s Worth.
If you’re in the market to sell off your old car you have a few different options when it comes to a valuation, even without leaving the comfort of your own home. These vary both in terms of how involved they are, and how precise the results are, so here are your options, and our verdict on which to go with.
The Old Fashioned Way
We say old fashioned, but you’d most likely use the internet for this method in this day and age. This is the quick and dirty method to get a very rough idea of what you can expect your wheels to go for.
It basically entails looking up the prices of other cars of the same or similar make and model that are currently on the market to get a ballpark figure and that’s kind of it. This might be the first method that comes to mind for some people but we honestly can’t recommend it.
It probably takes more effort than either of the other popular methods, and gives less accurate results, so it really has nothing going for it.
Of course, there’s also the really old fashioned way—just drive the car to a dealership and ask them how much they’ll give you for it.
Free Valuation Tools
There is a wide array of online car valuation tools that are free to use and easy to find — they’re literally the first thing that will come up if you type ‘car valuation’ into a search engine. They’re typically found on car selling sites, but you’re under no obligation to use those sites — you can even use two different tools to double check any figure you get.
These tools ask for your various details about your car like make, model, mileage, and license plate number and perform a simple search to pull up a reasonable price, but they can’t account for everything so this will always be an approximation.
Car valuations are one of the many uses for a car history check. Unlike the other options you’ll have to pay a fee, but the cost is negligible, and the valuation will be based on a much more complete picture of your car, including its service history, optional extras and so forth.
This means it will be much more accurate, and all the information will be pulled from databases meaning that the input you have to provide is a lot less than the other options on this list. This one is our recommendation if you want to get the best price for your car.
The Ducati Diavel Diesel is a limited edition model being produced as a collaboration by the two Italian firms. A total of 666 motorcycles will be produced as a result, featuring what the press releases calls ‘a hyperkinteic dynamism of a post-apocalyptic, retro-futuristic world’. Sounds fancy.
To go with the release of the Ducati Diavel Diesel is a small collection of clothing to match from Diesel. On the way in April with the limited edition, will be a leather jacket, two T-shirts and a pair of Jogg Jeans. Which might be why the new bike was actually unveiled at Milan Men’s Fashion Week before heading to the Motor Bike Expo.
Ducati Diavel Diesel Design:
So it’s obvious that a motorcycle worked on by Ducati and an Italian clothing brand would need to look good. And the Diavel starts off with a hand-brushed stainless steel superstructure with visible welding and rivets. That approach is kept for the fuel tank cover, front cowl and passenger saddle cover.
And the saddle itself looks rather lovely, made of real leather, and with a pyramid of three Ds to stand for Ducati, Diesel and Diavel. The mix of leather and visibile steel has that feel of vintage aeroplanes or ships. It’s definitely my favourite part of the bike.
The black anodised lateral air intakes also ave visible welding, and have intake covers in red methacrylate (or bendy plastic as it’s also known). And some Diesel logos on the inside.
There’s a red theme with the LCD dashboard matching the Brembo front brake calipers and even the chain features five red links.
But the exhaust goes for classic black Zircotec ceramic coating, with black silencers. Both the exhausts end cans and rear-view mirrors are machined from a solid block. You also get a black front mudguard with the DDD pyramid logo on it.
To show it’s a limited edition, the Ducati Diavel Diesel comes with a numbered plate on the frame. And buyers will be happy to know they get a bike cover and rear stand included in the price – but will have to wait to pick up a matching Diesel T-shirt.
Mechanically it’s a standard Ducati Diavel, with a 162hp Testastretta engine, with the Ducati Safety Pack (ABS and Traction Control). Which is the point where some people may have lost interest – but as a purely cosmetic limited edition, the Ducati Diavel Diesel has some nice touches to enjoy or possibly emulate.
There’s no word on price, but we’re sure your local Ducati dealer can find out for you before the bike is released in April. And if you can’t stretch that far, you can always buy a T-shirt instead…
Whether you’re working on it, walking on it or driving on it, staying safe on the road is essential. But what are the driving devices and roadway essentials which help to keep everyone safe on UK roads?
In the Vehicle
Automobile safety is an integral part of modern car design and a real focus for manufacturers. New innovations and improved systems continue to be developed in line with technological advances, with many safety devices now being incorporated as standard into cars:
Anti-lock braking systems (ABS) – this system prevents the wheels from locking during heavy braking, to help drivers to maintain control of vehicle. This helps ensure more effective stopping within average stopping distances and particularly upon skid-likely surfaces, such as wet roads or in icy conditions.
Electronic stability control – this system is the next up generation from ABS and includes a system of traction control. This corrects driver error by stablising the vehicle and reducing the risk of the driver losing control of the vehicle, for example in a skid. This system varies between vehicle manufacturers and may also be known as vehicle stability control.
Brake assist – this system ensures that maximum pressure is exerted when brakes are applied in an emergency. As manual emergency braking sometimes fails because drivers may depress the brake pedal insufficiently, so the brakes fail to engage on the wheels, brake assist technology assesses how quickly the brake has been applied and identifies if it’s likely to be an emergency. If it judges so, then brakes are fully applied via the hydraulic pressure system.
Lane keeping and adaptive steering – this system is a branch of Advanced Driver Assistance Systems (ADAS) which provides benefits such as cruise control. However, lane keeping and adaptive steering systems put greater emphasis on safety rather than comfort, specifically through aiming to maintain a vehicle’s correct position on the road by utilising lane markings at the side of the car. Any deviation from the correct position and the system alerts the driver so that correction can be made manually. Future development of this system proposes that it will work similarly to brake assist, with the system making the correction automatically.
Many versions of these technologies are already fitted to modern vehicles and continue to be developed as part of a deal to provide better protection for road users, including pedestrians.
On the road
Roadways and surfaces themselves also incorporate safety devices for speed control, accident prevention and risk management:
Road humps – also known as sleeping policemen to reflecting their more manual speed-prevention origins, road humps aim to deter speeding by preventing vehicles from speeding up along flat roads. Road humps are commonly found in residential areas, but not main bus routes as the hump height causes passenger discomfort. The humps need to be spaced fairly close together to be effective and must be accompanied by relevant signage at each end of the hump run.
Rumble strips – this is the name given to a variegated road surface which is generally applied as a layer to the roadway. When reaching this stretch of the road, the driver is immediately alerted to the need to adhere to speed limits, through the in-car feedback from the suspension and driving wheel, which will sound and feel different, specifically with a low rumble. With their specific aim to alert drivers to reduce their speeds, rumble strips can often be found at the edges of vulnerable roadsides, on the approach to junctions and where faster sections of A roads enter residential areas. Rumble strips tend to be used in outlying areas of towns and villages as they literally sound as they are named and the rumble of a steady stream of traffic can cause a noise-nuisance to residents. This road safety device is also deployed as transverse rumble strips, which run across the whole carriageway rather than just alongside it, whilst an additional version, known as Dragon’s Teeth, is applied along with a visible narrowing of the road, to also support accident prevention.
Speed cushions – as an alternative to road humps, speed cushions are a speed control method developed to cause standard vehicles to slow down, but allow emergency vehicle and public transport drivers through safely at normal speeds. Speed cushions offer an optimum size and placement so that smaller vehicles have to slow down to drive over the cushions, but buses and emergency vehicles are able to straddle the cushions and proceed normally. Cushions are generally installed at regular intervals along the roadway where speed reduction is required, such as in the neighbourhood of schools or pedestrian areas.
Pedestrian safety – pedestrians are encouraged to cross roads safely using designated zones such as crossings and traffic island refuges, which are highly visible to traffic.
Roadside safety is additionally important as it needs to respond to the needs of road workers, as well as the public and road users. The mainstay of roadside safety is crash barriers, which tend to be deployed with safety and risk reduction, rather than speed reduction in mind.
Safety barriers – permanent motorway and roadside barriers aim to minimise risk through containment: keeping an errant vehicle on its own side of the carriageway. This method does include the risk of impact and crash injuries to the driver, but with the effect of preventing the vehicle from advancing to the other side of the barrier where there may be a greater hazard. As such, permanent safety barriers are installed only when it presents less risk for an errant vehicle to strike the barrier than to continue onwards at speed. Permanent barriers of flexible steel construction have frequently been used to facilitate containment, but many have proven vulnerable over time. As such, there is a current move by the Highways Agency to replace many steel barriers with concrete barriers to increase containment, particularly where installed as a central reservation barrier.
Temporary barriers – one example of a temporary barrier solution is the MASS (Multi-Use Safety System) barrier. MASS barriers are designed to actively absorb the impact of a vehicle and use this to stabilise the barrier, both reducing the vehicle’s speed and deflecting the vehicle along the barrier line. Because MASS barriers offer a stable but non-permanent fixing, they are quick and easy to install and reposition at short notice to keep users on all sides of the barrier safe.
Finally, as these innovations continue to develop and change, one of the simplest road safety devices which is essential is road safety awareness: being aware of the roadway environment, conditions, restrictions and changes is a key way to make best use of all road safety devices and to help keep all road users safe.
It’s “the Sting of Inspiration’ blogs CarGuyChronicles’ Jim Palam, who succumbed to the magnetic appeal of the Fiberfab Centurion.
Bill Mitchell’s real XP-87 Stingray, top, photographed with two other Corvette legends – SR-2 and the iconic Grand Sport coupe – by Marty Schorr at the GM Proving Ground. Jim Palam’s photo of the Fiberfab Centurion, above.
In 1959 GM design chief Bill Mitchell wasn’t buying into the ban on manufacturer-sponsored racing proposed by the Automobile Manufacturers Association. He assembled a team of designers, headed up by Tony Lapine and working with Larry Shinoda, Chuck Pohlman and Gene Garfinkle, working on the XP-87 project in his secret “Hammer Room” studio. Peter Brock had worked on the XP-87 design prior to the team being assembled and he moved on to another Corvette Concept.
The XP-87 competition roadster is the forefather of the legendary C-2 Sting Ray Corvette. After Mitchell chose to retire his beautiful, race-tested Concept, many felt the ’63 Sting Ray wasn’t quite filling the XP-87 void.
So Fiberfab’s Warren “Bud” Goodwin’s decided to seize the opportunity to resurrect the XP-87 concept by building the Fiberfab Centurion in 1965. The example I discovered at Rick Cole Auctions in Monterey is 1 of only 8-12 Centurions produced between 1965 and 1966. With obvious design inspiration from Mitchell’s XP-87, this Inca-Silver Centurion sits on a ’58 Corvette chassis and features dual head-rest fairings, a Rochester FI 283 motor, 4-speed transmission and a 4.11 Posi rear. The Centurion body was designed and engineered to fit on any C-1 Corvette chassis
While there was plenty of buzz about this car during Car Week 2016, a high bid of $175,000 wasn’t quite enough to reel-in this radical roadster. Ultimately, GM halted production of this kit car, claiming ’58 Stingray Racer patent infringement.