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For those who don't like radians, or trigonometry, ...
The 'winner' so far is an Athearn SD75 whose pilot only sits about a hundredth above the rail. The math on that came out to a 290" vertical curve radius required to keep the plow from bottoming out. (W=3.875, O=.75, D=0.01). That comes out to 11.6 inches of curve length, which is more like the answer I was expecting to begin with.
Let R be the radius of the vertical curve, W be the wheelbase of your car or loco, and O be the overhang of the coupler from the truck centre, as in this diagram:The main quantity of interest is the length D (in red): the distance the coupler sags below its nominal height above the rails. This is given byD = O sin θ.
I think you may have an extra factor of 2 somewhere. For D<0.01" I get:R > OW/2D = (0.75*3.875)/(2*0.01) = 145"which requires a bit under 6" of run. But more is better.
I'm probably overlooking something elementary, but I am not seeing where you get this from the drawing.Ed
I'm probably overlooking something elementary, but I am not seeing where you get this from the drawing.
Just lay the track and see if it works .. all this trig and geometry is making my head hurt