Generally, to draw a curve in 2D you vary one parameter, and then collect x,y point pairs, and plot the pairs. In your case it will work to just vary the horizontal distance (x), and then collect the corresponding y-values, and then you can plot these.

As for the formula, it is very unclear. Basically it's just a parabola with a bunch of (poorly defined) jargon around it. To graph this, you want to vary x from 0 to L (this isn't obvious, btw, I had to work out the math, i.e., how to vary x so that the slopes would be as they suggest in the figure, anyway, it's 0 to L, and they should have said so).

I don't have C# running now, but hopefully you can translate this Python code:

```
from matplotlib.pyplot import plot, show
from numpy import arange
G1 = .1 # an initial slope (grade) of 10% (note that one never uses percentages directly in calculations, it's always %/100)
G2 = -.02 # a final slope (grade) of 2%
c = 0 # elevation (value of curve when x=0, that is, y at PVC
L = 10. # the length of the curve in whatever unit you want to use (ft, m, mi, etc), but this basically sets your unit system
N = 1000 # I'm going to calculate and plot 100 points to illustrate this curve
x = arange(0, L, float(L)/N) # an array of N x values from 0 to (almost) L
# calculate the curve
a = (G2-G1)/(2*L)
b = G1
y = a*x*x + b*x + c # this is shorthand for a loop y[0]=a*x[0]*x[0] + b*...
plot(x, y)
show()
print (y[1]-y[0])/(x[1]-x[0]), (y[-1]-y[-2])/(x[-1]-x[-2])
```

The final line prints the initial and final slopes as a check (in Python neg indexing counts from the back of the array), and this match what I specified for G1 and G2. The plot looks like:

As for your requests: "The example situation I'm going to set up is just both of the grades (vertical incline/decline) is just 5 and -5. Let's say point 1 is at 0, 0 and point 2 is 100, 100.", in a parabola you basically get three free parameters (corresponding to a, b, and c), and here, I think, you over-specified it.

What are PVC, PVT, and PVI? PVC: the starting point, so Y_PVC is the height of the starting point. PVT: the ending point. PVI: if you draw a line from PVC at the initial slope G1 (ie the tangent to the curve on the left), and similarly from PVT, the point where they intersect is called PVI (though why someone would ever care about this point is beyond me).

Ask a question. – Eric Lippert Apr 12 '12 at 20:17specific,technicalquestion. No one here knows why you don't understand the things you don't understand, but plenty of people here know how to bind datasets to grid views. – Eric Lippert Apr 12 '12 at 20:47helpingyou by pointing out that the question you're asking is highly likely to be closed and then deleted as unanswerable.Ask a better question.– Eric Lippert Apr 12 '12 at 22:45