trinidefender wrote:Ok again. People are making claims about this or that yet nobody here has stated where they are getting their information from. Me personally, when I posted earlier I stated I was a commercial pilot who has done a lot of study of aerodynamics. Before people say things can they at least establish on what basis they are making the claims. As in if they have a job that involves aerodynamics etc. people are mentioning AoA. However nobody here except me has mentioned the real term they should be talking about which is apparent angle of attack.
1) Actually, while I didn't cite the term by name, you'll see from my (extremely rough) calculations that I was taking that into account.
2) The assertion that you have to say how you were educated is just plain bullshit – that's called an argument to authority, and is a logical fallacy. What makes things valid arguments or not is whether they are correct or not. If something is incorrect, you should state why, rather than stating "I have done aero"… Thankfully, you go on to do exactly that
A multi element wing WHERE THE AIRFLOW IS FLOWING FROM ONE ELEMENT TO ANOTHER vs another multi element where each element is stacked will have two different sets of operating characteristics. In the first instance where all the airflow coming off of one element goes onto the second has the characteristics of having a wing that is very good at resisting stall conditions and maintaining airflow over each element. An example of this are the flaps on a 747-400. They are called fowler double slotted flaps. The problem with this arrangement is that as speed increases drag increases very quickly because while the apparent angle of attack to the airflow stays relatively the same over each element, the angle of attack of the wing relative to the car and therefore the force of the wing is directed as much back as it is down creating more drag.
Good, I'm glad we agree on the characteristics of the multi element wings being discussed here.
If I have lost anybody then let me know. The second type of multi element wing has the elements stacked on top of each other. Similar to a bi and tri plane aircraft. In this situation on an aircraft because the wings are so far apart there isn't to much interference between each wing. However there is still some interference. The characteristics of this type of multi element wing is that you can get more surface area into a smaller package. Looking at most teams FW's it seems that there is some combination of the two with a bias towards the airflow going from on wing to another.
Interesting, but not very relevant to the discussion, as the difference between the wings being discussed is how the teams divide up the main wing into 2 to 6 elements, not how the cascades above the wing are arranged (which, while subtly different, is pretty much the same between all of the teams).
ringo wrote:All this talk on front wings..
Boy i hope a new wing solves the problem, because it would be a lot of wasted energy typing all that wing stuff.
The front wing isnt the problem. It's too simplistic to say a wing change will solve Mclaren's problem which is quite complex.
It's not a matter of the car just not having enough downforce.
If this wing is a problem, then the 2012 car would not have been so fast last year. All teams kept wings similar to last year, so Mclaren's 2012 wing can be compared to the 2013 wings of other cars. The 2012 wing worked pretty well.
So i don't see how the front wing is now to be blamed, and how it is viewed as being prehistoric.
Mclaren has a chassis problem. It's all in their mounting points on both chassis and gear box. That's why they will have a headache fixing it.
They would kill to have a front wing problem. They will thank the racing gods if all they had to do was a front wing update.
I'm glad there's someone out there who agrees that the solution is not "zomg, they've not got 5 slots in their front wing".
