Well, here is a short explanation, in pseudo-code, of how you can integrate this with ransac. Basically, all Ransac does is compute your model (here the Essential) using a subset of the data, and then sees if the rest of data "is happy" with that result. It keeps the result for which a highest portion of the dataset "is happy".
for iter=1 to max_iter_number:
n_pts=get_n_random_pts(P);//get a subset of n points from the set of points P. You can use 5, but you can also use more.
for pt in P:
//we want to know if pt is happy with the computed E
err=cost_function(pt,E);//for example x^TFx as you propose, or X^TEX with the essential.
This should do the trick. Usually, you set
some_threshold experimentally to a low value. There are of course more sophisticated Ransacs, you can easily find them by googling.
Your idea of using
x^TFx is fine in my opinion.
Once this Ransac completes, you will have
best_estimated_essential_matrix. The outliers are those that have a
x^TFx value that is greater than your optional threshold.
To answer your final question, yes, a point could produce a different matrix given 4 different points, because their spatial configuration is different (you can have degenerate situations). In an ideal settings this wouldn't be the case, but we always have noise, matching errors and so on, so what happens in the end is that the equations you obtain with 5 points wont produce the exact same results as for 5 other points.
Hope this helps.