# difference between parametric and algebraic equation of sphere intersection with line

I'm writing a Raytracer in C, and to draw a sphere I'm using the Cartesian equation:

``````x^2 + y^2 + z^2 = R^2.
``````

I have my eye position (x_eye, y_eye, z_eye) and my eye vector (Vx, Vy, Vz). The parametric equation of my line is:

``````x = x_eye + k * Vx
y = y_eye + k * Vy
z = z_eye + k * Vz
``````

I put the parametric equation of my line in the Cartesian equation of the sphere in order to solve it

``````(x_eye + k * Vx)^2 + (y_eye + k * Vy)^2 + (z_eye + k * Vz)^2 = R^2

(Vx^2 + Vy^2 + Vz^2) * k^2 + 2 * (x_eye*Vx + y_eye*Vy + z_eye*Vz) * k + (x_eye^2 + y_eye^2 + z_eye^2 - R^2) = 0
``````

I got now an equation like ax^2 + bx + c = 0 and define a, b, c with:

``````a = (Vx^2 + Vy^2 + Vz^2) * k^2
b = 2 * (x_eye * Vx + y_eye * Vy + z_eye * Vz) * k
c = (x_eye^2 + y_eye^2 + z_eye^2 - R^2)
``````

then i can find k for each pixel if there is intersection (b^2 - 4.a.c >= 0).

But is there any other way to find k using these parametric equation of line and sphere
line :

``````x = x_eye + k * Vx
y = y_eye + k * Vy
z = z_eye + k * Vz
``````

and for sphere:

``````x = R.cos(u).cos(v)
y = R.sin(u).cos(v)
z = R.sin(v)
``````

how could i find k with these two parametric equation?
should I do

``````x_eye + k * Vx  = R.cos(u).cos(v)
y_eye + k * Vy  = R.sin(u).cos(v)
z_eye + k * Vz  = R.sin(v)
``````
-
Using the parametric equation for the sphere complicates the equation you have to solve since you have introduced additional variables `u` and `v`. Is there a particular reason you want to do it this way? –  Will Mar 12 '11 at 12:51
I'm trying to understand how it works in order to draw other object more complex like Dini's surface Boy's surface or moebius ring. I'm wondering how some raytracer can draw complex objects and i think they use parametric equation. –  Mickael Ciocca Mar 12 '11 at 13:00
Introducing new variables is not really a problem, since the variables `u` and `v` actually replace `x`, `y` and `z`. In fact, the original system had 4 variables (`x`, `y`, `z` and `k`) while the new one only has 3. The real difficulty is in introduction of trig functions. –  Jan Hlavacek Mar 12 '11 at 19:20

To solve the system

``````x_eye + k * Vx  = R.cos(u).cos(v)
y_eye + k * Vy  = R.sin(u).cos(v)
z_eye + k * Vz  = R.sin(v)
``````

start by squaring both sides of each equation, and then add all three equations together. Then simplify the right hand side using trigonometric identities until you get

``````(x_eye + k * Vx)^2 + (y_eye + k * Vy)^2 + (z_eye + k * Vz)^2 = R2
``````

which is the same equation for `k` that you had before.

In general, though, this may not be practical approach. Since you are trying to write a raytracer, you don't want to solve every equation by hand. Instead, use some system solving algorithms. A good starting point may be looking up some information on Newton's method and secant method for several variables. Any introductory textbook on numerical analysis should contain plenty of information that will get you started.

-
2. To work out if the sphere is hit you don't have to call any `math.h` function i.e. you can calculate the discriminant for intersection (as you pointed out) just using b^2 - 4.a.c >= 0.
3. If you need to go one step further and calculate the intersection point then you simply make one `sqrt()` function call. I anticipate this will be faster then multiple calls to trig. functions coupled with a Newton-Raphson, plus it will be much less code (always a good thing!).