I'm working through the OpenGL Superbible ( 4th Edition ). Chapter 4 has an example of rotating electrons about a nucleus. ( basically small spheres about a single larger sphere).
Here is an extract of the render function, which draws an electron ( a sphere) in a particular position about a nucleus (another sphere).
fElect1 is an angle that is incremented by 10 degrees on each call to render.
glPushMatrix(); glRotatef(360.0f-45.0f,0.0f, 0.0f, 1.0f); glRotatef(fElect1, 0.0f, 1.0f, 0.0f); glTranslatef(0.0f, 0.0f, 60.0f); glColor3ub(56,136,21); glutSolidSphere(6.0f, 15, 15); glPopMatrix()
So - he rotates the view by 315 degrees about the z-axis. And then rotates the view about the newly rotated y-axis by the angle
fElect1 and then draws the sphere. i.e. he wants to simulate an orbit of an electron around the y-axis. The result is that the electron appears to move in a 'tilted' orbit about the sphere ( tilted because the x-axis has been tilted by 315 degrees ).
But my question is - why does he translate on the z-axis? wouldn't this mean that the electron has a sort of orbit where the nucleus is not at the centre of it's path? But it doesn't look like that when I run the simulation.