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2013 Honda Civic Cpe 2dr Man Si Traction Control Security System on 2040-cars

US $21,988.00
Year:2013 Mileage:7178
Location:

Houston, Texas, United States

Houston, Texas, United States
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Auto Services in Texas

World Tech Automotive ★★★★★

Auto Repair & Service, Automobile Parts & Supplies, Automotive Tune Up Service
Address: 213 E Buckingham Rd Ste 106, Fate
Phone: (972) 414-5292

Western Auto ★★★★★

Automobile Parts & Supplies, Tire Dealers, Wheels
Address: 106 W Clayton St, Hull
Phone: (936) 258-3181

Victor`s Auto Sales ★★★★★

New Car Dealers, Used Car Dealers, Wholesale Used Car Dealers
Address: 5808 Manor Rd, Geneva
Phone: (512) 270-5635

Tune`s & Tint ★★★★★

Automobile Parts & Supplies, Glass Coating & Tinting Materials, Consumer Electronics
Address: Booker
Phone: (806) 373-8863

Truman Motors ★★★★★

Used Car Dealers
Address: 5701 Burnet Rd Ste B., Cedar-Park
Phone: (512) 765-4494

True Image Productions ★★★★★

Auto Repair & Service
Address: N Waddill St, Copeville
Phone: (972) 542-4445

Auto blog

Recharge Wrap-up: Pikes Peak Honda CR-Z, Tesla's liquid-cooled cable

Thu, Jun 18 2015

Honda will race a CR-Z hybrid in the Pikes Peak International Hill Climb. The car will use Electric SH-AWD, which probably means it will be using electric motors to power the rear wheels. Whether the Pikes Peak CR-Z uses the same powertrain as the upcoming Acura NSX or the 3.5-liter V6 with three-motor hybrid system used in the Acura RLX Sport Hybrid is still unclear. The car will also use Acura's Precision All-Wheel Steering (P-AWS) system. The CR-Z will be piloted by Tetsuya Yamano. Read more at Hybrid Cars, or, if you read Japanese, at Response. Tesla has introduced a thinner, liquid-cooled Supercharger cable. While the convenience of not having to "wrestle a good-sized snake into the car," as Elon Musk calls it in a shareholder speech, is wonderful, it could also allow for faster charging in the future. The liquid-cooled charging cable "also has the potential for increased power of the Supercharger long-term," says Musk. A cable able to withstand larger loads could mean shorter stops when it's time for a charge. Tesla has installed the first next-generation cable at the Mountain View Supercharger. Read more at Charged EVs. Smart is offering its Twinamic automatic dual-clutch transmission on more models in Europe. In addition to the 71-horsepower Smart Fortwo, the DCT will now be available in the 90-horsepower Fortwo and the 71-horsepower Forfour. In the Fortwo, the Twinamic DCT adds ˆ1,275 (about $1,437) to the price over the manual transmission, and is an extra ˆ1,425 (about $1,606) in the Forfour. The option of steering wheel-mounted paddle shifters as part of the Sport package makes driving the efficient microcar even more fun. Deliveries of the newly equipped vehicles begin at the end of July. Read more in the press release below. smart extends twinamic range for fortwo and forfour: Even more models with automatic transmission Stuttgart. Following in the footsteps of the smart fortwo with 52 kW/71 hp, the smart fortwo with 66 kW/90 hp and the smart forfour with 52 kW/71 hp are now also available with fully automatic twinamic dual clutch transmission. This costs an extra 1275 euros compared to the versions with 5-speed manual transmission (forfour: 1425 euros). This means that both model series now offer a choice between no fewer than nine engine/transmission combinations. Delivery of the new models will begin at the end of July 2015.

Buckeye Current back on track at Pikes Peak with new rider [w/video]

Thu, Jun 25 2015

After suffering a major setback, the Buckeye Current electric motorcycle racing team of students from Ohio State University looks set to take on the 2015 Pikes Peak International Hill Climb on June 28. The squad's longtime rider Rob Barber suffered a crash on the bike during practice for the event. Now, three-time Pikes Peak 450 Pro Class winner Joe Prussiano (pictured above) has taken over to challenge the mountain for the group. In some ways, Buckeye Current is the scrappy underdog of the electric motorcycle racing world. The student team has definitely shown speed, though. In 2013 and 2014, its bikes took consecutive third place finishes in the Isle of Man TT Zero with Barber in the saddle. This year the squad's sights are set on Pikes Peak with a new bike called the RW-3, and the aim is for a possible overall motorcycle record. Utilizing a frame from a Honda CBR1000RR, the students created the 7.8-kWh battery pack, carbon fiber fairing, and electronics system. The team estimates the cycle is making over 134 horsepower and is capable of an average speed of 76 miles per hour up the hill climb. Following Barber's crash, the RW-3 had to be rebuilt, but it has now passed tech inspection to race up the mountain again. Scroll down and check out Prussiano's first ride of the RW-3 on America's Mountain. This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings. BUCKEYE CURRENT RALLIES TO COMPETE IN THE 2015 PIKES PEAK INTERNATIONAL HILL CLIMB Buckeye Current, the student electric motorcycle team at The Ohio State University, has completed its latest all-electric racing motorcycle. RW-3 will compete in the 2015 Pikes Peak International Hill Climb June 28. This follows on the success of the team's 2013 and 2014 Isle of Man TT Zero performances in which renowned rider Rob Barber piloted the team's RW-2 and then RW-2.X vehicles to third place victories, achieving the title of the world's fastest collegiate electric motorcycle two years in a row. After earning two podium finishes at the Isle of Man, the team was looking ahead to a new challenge. This year the team had to create an entirely new bike to conquer Pikes Peak. RW-3 is designed to average 76 miles per hour through the course with a top speed of 125 miles per hour. The battery pack holds 7.8 kilowatt-hours of energy on board and contains 972 individual 18650 cylindrical battery cells.

Toyota, Nissan, Honda will work together on hydrogen filling stations

Thu, Feb 12 2015

Japan's own version of the Big Three is taking on a transportation effort that's a far cry from the large-engined history of General Motors, Ford and Chrysler. In fact, Toyota, Nissan and Honda are looking to do their part – and maybe a little more – for the environment by working together to collaborate on accelerating the deployment of hydrogen fuel delivery in Japan. More refueling stations means more convenience for prospective hydrogen fuel-cell vehicle owners. Toyota says the specifics, including investment amount and the number of stations to be deployed, will be "determined at a later date." Still, the effort dovetails with that of the Japanese government. That government announced a so-called Strategic Road Map for Hydrogen and Fuel Cells last June and subsequently said it would start offering about $20,000 worth of incentives for fuel cell vehicle buyers. In December, Toyota started selling its first mass-produced fuel cell vehicle, the Mirai, in Japan and said it would almost triple production to 2,000 vehicles in 2016 from 700 this year. Last month, the Tokyo government began talks with Toyota and Honda to collaborate on ensuring that there'd be at least 6,000 fuel-cell vehicles on Japan's roads in time for the 2020 Summer Olympics in Tokyo. Tokyo officials are looking to have 100,000 fuel-cell vehicles on the city's roads by 2025. Check out Toyota's press release below. Toyota, Nissan, and Honda to Jointly Support Hydrogen Station Infrastructure Development Toyota Motor Corporation, Nissan Motor Co., Ltd., and Honda Motor Co., Ltd. have agreed to work together to help accelerate the development of hydrogen station infrastructure for fuel cell vehicles (FCVs). Specific measures to be undertaken by the three manufacturers will be determined at a later date. For hydrogen-fueled FCVs to gain popularity, it is not only important that attractive products be launched-hydrogen station infrastructure must also be developed. At present, infrastructure companies are making every effort to build such an infrastructure, but they face difficulties in installing and operating hydrogen stations while FCVs are not common on the road. Following the formulation of its Strategic Road Map for Hydrogen and Fuel Cells in June 2014, the Japanese government has highlighted the importance of developing hydrogen station infrastructure as quickly as possible in order to popularize FCVs.