A&Q about 350Z
Q:
Hey, sorry for starting another thread so soon, but I couldn't resist. So yea, what are the advantages/disadvantages of having long overhangs or short overhangs. Like what effect do they have on the car's handling, acceleration, braking, etc.?
A:
Ever thought about buying a book on chassis/body design and theory? It will effect handling in that you will be turning from a more centered location rather than the front if you have a very long over hang, and the opposite is true if you have the wheels sticking out infront of the car past the body. Braking would not be effected except when it is used inconjuntion with handling.
A:
i would be more concerned with wheel base than overhang. make the wheel base as long as you need it (longer is better to a certain point) and then make the body as short as you can past the wheel base. I mean make the overhang as small as possible to save weight but take as much room as you need for aero and mechanical stuff. Like everything else, it is a compomise.
A:
lol yea, so is that why the cars like the McLaren F1, Zonda, Enzo, all have long front overhangs and short rear overhangs?
A:
Overhangs mainly affect turning and aerodynamics. Acceleration and braking are generally not affected, unless the overhangs consist of chassis members, or heavy lead weights, instead of mostly hollow bodywork. Long overhangs can help reduce drag and/or increase downforce, depending on how the bodywork is designed. Usually, increasing downforce comes at the cost of increased drag, but there are solutions which don't have drag penalties.
Turning, is also another matter where overhangs matter. The closer that the mass is to the center of the car, the easier it can turn. In techincal terms, you want to reduce the cars's polar moment of inertia (a number which says how well it resists a turning force, or torque.) You can test this by moving your arms in and out while spinning around on your desk chair
Cars are styled with a mix of aerodynamics, and aesthetics in mind. With mid-engined supercars such as the F1, Zonda, and Enzo, you'll see the overhangs styled in a way that makes the most aerodynamic sense for the type of layout that the cars have. Aesthetics do come into play, but aerodynamic performance is most important.
A:
ah, I see. That makes sense
A:
btw you know any good books on supercar/prototype design or engineering?
A:
That depends on whether you're just into technical reading for pleasure, or you want hard engineering information on the cars. You're probably not going to find a single comprehensive book that tells you how to design a supercar.
You might find a book like "Driving Ambition" which explains the story behind the F1, including some of the design concepts that went into it, but none of the hard engineering details behind it. There are, however, plenty of automotive books out there, which cover specific topics -- things like engines & turbocharging, or suspension design, which are written by engineers, for engineers.
There are less technical versions of the books above that are intended for mechanics and tuners. But again, nothing that tells you how to design a complete supercar. Companies aren't usually keen on revealing the reason for their design choices when they have competitors to outsell and outrace.
A:
True. But if you want my opinion I think anyone could learn more and understand it better from people over here at AF than from any book
. I'm not saying that the books aren't good because the four pages of Driving Ambition that I read were really good too.
A:
If you're looking for general technical information, there's lots of people who can provide that.
If you want engineering though, books really do have internet forums beat.
A:
point taken
A:
one more question. What are the benefits of using an elongated nose like Group C cars, and F1 cars? Because I know the Enzo featured a elongated nose too.
A:
i would have to say its purely for aero. To give a less steep angle to the front and to provide a place to mount a wing.
A:
and also wouldn't it help in like wight distribution and you'd also be able to house a larger radiator
A:
you generally dont want to add weight anywhere, ever, especially to the front of a car not to mention (and im just gonna talk about F1 cars) the carbon fiber used to make the nosecone doesnt weight that much. Also in F1 cars the radiators are to the sides slightly behind the driver.