Magnetic rail shunt with variable resistor

What is claimed is: 1. A magnetically clampable rail shunt, comprising: two magnetic clamps, each clamp having a magnetic device for attaching the clamp to one of two parallel railway rails of a railway track by magnetic force; an electrical conductor electrically connecting the two magnetic clamps for shunting the two parallel railway rails; and a variable electrical resistor assembly for adjusting the electrical resistance of the rail shunt, said variable electrical resistor assembly being connected in series between the two magnetic clamps via said electrical conductor, wherein the variable electrical resistor assembly comprises a variable resistor, which comprises: a central supporting core; an electric current carrying wire wound around the core; and a plurality of connection terminals distributed along the length of said wire configured to connect ends of said electrical conductor to predetermined portions of said wire, thereby setting the resistance value of the variable resistor. 2. The rail shunt of claim 1 , wherein the core is a preferably metallic plate, and the wound wire is electrically insulated from said plate by at least one electrically insulating member placed between said plate and said wire. 3. The rail shunt of claim 1 wherein the variable electrical resistor assembly comprises a housing accommodating said variable resistor. 4. The rail shunt of claim 1 , wherein the wire is made of a material whose resistivity remains essentially constant over a temperature range of −25° C. to +85° C., such as constantan. 5. The rail shunt of claim 1 , wherein the variable electrical resistor assembly is adapted for adjusting the electrical resistance of the rail shunt between 0 and around 2.5 Ohm. 6. The rail shunt of claim 1 , wherein the electrical conductor comprises a first electrical cable electrically connecting one clamp to the variable electrical resistor assembly, and a second electrical cable electrically connecting the variable electrical resistor assembly to the other clamp. 7. The rail shunt of claim 1 , wherein the magnetic device is a set of individual magnets. 8. The rail shunt of claim 7 , wherein the set of individual magnets is made of neodymium, arranged inside the magnetic clamp. 9. The rail shunt of claim 7 , wherein each magnetic clamp has a magnet receiving plate for receiving said magnets and a cover plate covering the magnet receiving plate. 10. The rail shunt of claim 9 , wherein the magnet receiving plate has a plurality of magnet receiving recesses, each recess having one magnet arranged therein. 11. The rail shunt of claim 10 , wherein the recesses are arranged in a single row. 12. The rail shunt of claim 10 , wherein each recess is cylindrical. 13. The rail shunt of claim 1 , wherein each magnetic clamp is T-shaped with a longitudinal base and a transverse head. 14. The rail shunt of claim 13 , wherein each transverse head has a fastening member, such as a hole, at one of its ends for fastening an end of the electrical conductor to the magnetic clamp. 15. The rail shunt of claim 1 , wherein each magnetic clamp has a handle for pulling the magnetic clamp off a railway rail.