Do electrons go to the north pole or south pole?
They go anywhere they want.
You are confusing electrical and magnetic forces.
North and south magnetic poles refer to the directions of magnetic field lines. Electrons can travel in either direction along these lines.
Electrons do not have a specific direction of travel towards the north or south pole. The movement of electrons in an electrical current is determined by the electric field established by a voltage source. When electrons flow through a conductor, such as a wire, they simply move from an area of higher electrical potential (positive side) to an area of lower electrical potential (negative side). They do not have a preference for the north or south pole.
To understand the direction of electron flow in a circuit, you can use the conventional flow model or the electron flow model. The conventional flow model assumes that positive charges, such as protons, are the ones that move, while the electron flow model acknowledges that electrons are the actual carriers of electric current.
In both models, the direction of current flow is from the positive terminal of a voltage source (such as a battery) to the negative terminal. This means that in a typical circuit, current flows in one direction while electrons flow in the opposite direction.
In summary, electrons do not go directly to the north or south pole. Their movement is determined by the electric field established by a voltage source, and they flow from an area of higher electrical potential to an area of lower electrical potential in a closed circuit.