Apparatus and method for influencing electromagnetic forces of an electric traction motor

What is claimed is: 1. A method for influencing electromagnetic forces of an electric traction motor, comprising: superimposing a higher-order harmonic on an actuating variable for the electric traction motor in a manner that is dependent on a rotational speed of the electric traction motor, a torque of the electric traction motor, a temperature at the electric traction motor, or a three-phase current or a three-phase voltage of the electric traction motor for generating a resulting actuating variable, actuating the electric traction motor in a manner dependent on the resulting actuating variable, and the actuating variable, the harmonic and the resulting actuating variable characterizing an actuating current or an actuating voltage, wherein the harmonic has an amplitude, a phase and a pilot control angle defined by relative d-axis and q-axis amplitudes of the three-phase current or the three-phase voltage, a rate of change for each of the amplitude, the phase, and the pilot control angle for the harmonic being limited by way of a limiter to stabilize the influencing electromagnetic forces of an electric traction motor. 2. The method of claim 1 , wherein the harmonic has a frequency that is an integral multiple of a frequency of the fundamental oscillation of the actuating variable of the actuating current or the actuating voltage. 3. The method of claim 1 , wherein the harmonic is determined in a manner that is dependent on at least one characteristic diagram that assigns the amplitude, the phase and/or the pilot control angle to the rotational speed, the torque and/or the temperature for a determination of the harmonic. 4. The method of claim 1 , wherein the harmonic is determined in a manner that is dependent on a characteristic diagram that assigns the amplitude, the phase and/or the pilot control angle to the three-phase current or the three-phase voltage, the temperature and/or the rotational speed for a determination of the harmonic. 5. The method of claim 1 , wherein the determination of the amplitude, the phase, and/or the pilot control angle for the harmonic takes place in a first task, the generation of the harmonic taking place in a second task. 6. The method of claim 5 , wherein the first task is executed in a first time period and the second task is executed in a second time period, the first time period being greater than the second time period. 7. The method of claim 1 , wherein a magnitude of the order of the harmonic is determined in a manner dependent on a number of pole pairs of the traction motor. 8. The method of claim 1 , wherein the resulting actuating variable is determined in a manner which is dependent on the torque and the rotational speed. 9. The method of claim 1 , wherein the actuating variable is determined in a manner dependent on at least one input current that is filtered by way of a filter that can be deactivated, when the filter is activated, coefficients of the filter are determined based on the rotational speed of the electric traction motor to suppress a frequency of the at least one current in a variable manner such that the harmonic is not perceived as a disturbance variable. 10. The method as claimed of claim 1 , wherein plural harmonics of differing order are generated and are superimposed for the generation of the resulting actuating variable. 11. An apparatus for influencing electromagnetic forces of an electric traction motor, comprising a controller configured to actuate the electric traction motor in accordance with the method of claim 1 . 12. The method of claim 1 , wherein the harmonic is determined in a manner that is dependent on three characteristic three-dimensional diagrams, each three-dimensional diagram assigns at least one of the amplitude, the phase and the pilot control angle to the rotational speed, the torque and the temperature of the electric traction motor for a determination of the harmonic.