Tweet
Re: Wash in wash in wash out how do those wires route?
Thanks Dave for taking the time to answer this...so summarizing for your case (by referencing the PDF data you determined earlier) initially doing the 1 5/16" Taylorcraft process resulted in:
Left wing root; Ref. angle +4.45*; Left wing tip; Ref. angle +2.05*; washout 2.40*
Right wing root: Ref. angle +4.55*; Right wing tip, Ref. angle +1.70*; washout 2.85*
After initially setting the 1 5/16" did you then eventually adjust the wash to fly right? I expect so as that's usually the case.
Interesting. My wings are flat in comparison (0-0.5* washout) and with VG's exhibit no bad stall behavior or hesitation at liftoff so far. I've had 3 Cubs with that 2.5* washout and they tend to hesitate at liftoff in deep snow or on the water compared to a flatter wing with little to no washout. My Citabria's (Champs in general) had a flat wing and performed like my Taylorcraft in liftoff and stall.
However it's essential to maintain coordinated flight at all times and avoid skidding turns at low airspeed. That's why were there to begin with.
Gary
Originally posted by drude
View Post
Left wing root; Ref. angle +4.45*; Left wing tip; Ref. angle +2.05*; washout 2.40*
Right wing root: Ref. angle +4.55*; Right wing tip, Ref. angle +1.70*; washout 2.85*
After initially setting the 1 5/16" did you then eventually adjust the wash to fly right? I expect so as that's usually the case.
Interesting. My wings are flat in comparison (0-0.5* washout) and with VG's exhibit no bad stall behavior or hesitation at liftoff so far. I've had 3 Cubs with that 2.5* washout and they tend to hesitate at liftoff in deep snow or on the water compared to a flatter wing with little to no washout. My Citabria's (Champs in general) had a flat wing and performed like my Taylorcraft in liftoff and stall.
However it's essential to maintain coordinated flight at all times and avoid skidding turns at low airspeed. That's why were there to begin with.
Gary
Comment