For any two convex meshes, to find whether they intersect, you need to check if there exist a separating plane. If it does, they do not intersect. The plane can be picked from any face of either shape, or the edge cross-products.

The plane is defined as a normal and an offset from Origo. So, you only have to check three faces of the AABB, and one face of the triangle.

```
bool IsIntersecting(IAABox box, ITriangle triangle)
{
double triangleMin, triangleMax;
double boxMin, boxMax;
// Test the box normals (x-, y- and z-axes)
var boxNormals = new IVector[] {
new Vector(1,0,0),
new Vector(0,1,0),
new Vector(0,0,1)
};
for (int i = 0; i < 3; i++)
{
IVector n = boxNormals[i];
Project(triangle.Vertices, boxNormals[i], out triangleMin, out triangleMax);
if (triangleMax < box.Start.Coords[i] || triangleMin > box.End.Coords[i])
return false; // No intersection possible.
}
// Test the triangle normal
double triangleOffset = triangle.Normal.Dot(triangle.A);
Project(box.Vertices, triangle.Normal, out boxMin, out boxMax);
if (boxMax < triangleOffset || boxMin > triangleOffset)
return false; // No intersection possible.
// Test the nine edge cross-products
IVector[] triangleEdges = new IVector[] {
triangle.A.Minus(triangle.B),
triangle.B.Minus(triangle.C),
triangle.C.Minus(triangle.A)
};
for (int i = 0; i < 3; i++)
for (int j = 0; j < 3; j++)
{
// The box normals are the same as it's edge tangents
IVector axis = triangleEdges[i].Cross(boxNormals[j]);
Project(box.Vertices, axis, out boxMin, out boxMax);
Project(triangle.Vertices, axis, out triangleMin, out triangleMax);
if (boxMax <= triangleMin || boxMin >= triangleMax)
return false; // No intersection possible
}
// No separating axis found.
return true;
}
void Project(IEnumerable<IVector> points, IVector axis,
out double min, out double max)
{
double min = double.PositiveInfinity;
double max = double.NegativeInfinity;
foreach (var p in points)
{
double val = axis.Dot(p);
if (val < min) min = val;
if (val > max) max = val;
}
}
interface IVector
{
double X { get; }
double Y { get; }
double Z { get; }
double[] Coords { get; }
double Dot(IVector other);
IVector Minus(IVector other);
IVector Cross(IVector other);
}
interface IShape
{
IEnumerable<IVector> Vertices { get; }
}
interface IAABox : IShape
{
IVector Start { get; }
IVector End { get; }
}
interface ITriangle : IShape {
IVector Normal { get; }
IVector A { get; }
IVector B { get; }
IVector C { get; }
}
```

A good example is the box (±10, ±10, ±10) and the triangle (12,9,9),(9,12,9),(19,19,20). None of the faces can be used as a separating plane, yet they do not intersect. The separating axis is <1,1,0>, which is obtained from the cross product between <1,0,0> and <-3,3,0>.