Last year, I joined the ranks of amateur wheel-to-wheel racers and went to race with the fantastic Vantage Motorsports racing team (to read more, go to The Ram's Eye Goes Racing ). It was just as much fun and rewarding as I imagined it would be so I was really looking forward to this (2017) season. Unfortunately, life has a habit of getting in the way of things you want to do so that's exactly what happened this year. I missed all but the last round of the race season, which was on Sunday September 17. It seems, though, that I had a full season's worth of racing experience in one day.. For starters, I missed the early morning call, which meant I had to start from the back of the pack in every race. No problem, I liked that I'd have more racing to do. I went out in the practice session and I found out I was very rusty.. My first hot lap was a 1:27.x, about 5 seconds off the pace of the car on the Toyo R888's that were on it. Second dropped to 1:26.x, then I sett
BMW M2 equipped with an eLSD - BMW © A few weeks ago, I posted about traditional clutch-type limited slip diffs (LSD's) and how they work. You can read about those in the previous post: How Limited Slip Diffs Make You Faster on Track . But as you might know or have learned from reading the article, they aren't without their faults, which means engineers are always working to get around those limitations. You may not be surprised to learn that something like the Ferrari 488 GTB doesn't use a traditional limited slip diff, but it's not limited to super cars, far from it. Cars like the Golf GTI, the Civic Type R, various Mustangs, Corvettes, and BMW M cars, and even the Lexus RC F and GS F, all avoid a traditional limited slip diff in favour of one of these technologies. To keep things simple, I'll focus on two wheel drive vehicles. The vast (vast) majority of principles apply to all and 4 wheel drive vehicles, but there are some subtle differences that I'll