Rix
Guest
Hi guys, this time the question is simpler. ..probably it will seem trivial, but I can't get out of my "wheel" the corners of camber (samping) and toe (convergence) that come to create in the simulation.
Here is the wheel, a simple cylinder:
the solid mass center marker is oriented on (0.0.0) as the reference system!
According to how the wheel is placed in my system, the camber should be the rotation of my solid around the z axis, while the toe around the y axis.
Now refer to the wheel I open the command "mesaures" and I go on "orientation"...and here the problems begin! !
from an online guide I found that for such calculations I have to employ the function "ax,ay,az projection angles" and set "first, second, third rotation" depending on what I need, but with such settings I can not obtain plausible results. or at least not for both values I need.
I also tried using "yaw, pitch, roll", but it only worked for toe.
here is how you could well understand, my ideas are very confused,
enlighten me, if it is possible, because unfortunately it is not absolutely clear to me how to get what is needed!
Thank you, immensely!
Here is the wheel, a simple cylinder:
the solid mass center marker is oriented on (0.0.0) as the reference system!According to how the wheel is placed in my system, the camber should be the rotation of my solid around the z axis, while the toe around the y axis.
Now refer to the wheel I open the command "mesaures" and I go on "orientation"...and here the problems begin! !
from an online guide I found that for such calculations I have to employ the function "ax,ay,az projection angles" and set "first, second, third rotation" depending on what I need, but with such settings I can not obtain plausible results. or at least not for both values I need.
I also tried using "yaw, pitch, roll", but it only worked for toe.
here is how you could well understand, my ideas are very confused,
enlighten me, if it is possible, because unfortunately it is not absolutely clear to me how to get what is needed!
Thank you, immensely!
