A method for preventing a lateral oscillation of a tower of a wind power installation having at least two rotor blades with adjustable attitude angles includes determining a manipulated variable for setting the attitude angles on the basis of information about a pitch torque and a yaw torque of the head of the tower. The control circuit sets, in a predetermined frequency range, the frequency of the alternating voltage to a higher one of a first frequency at which transmission efficiency is highest and a second frequency at which a voltage generated in the power receiving device is highest, and performs power transmission. Third and fourth arms are rotationally coupled to and outwardly extending from the vehicle frame at first and second mounting positions, respectively. The support flange is operatively configured to be driven by the rotation mechanism. An interconnect structure is disposed on the RF component, wherein the interconnect structure is electrically connected to the RF component, and a thickness of the semiconductor substrate is less than that of the interconnect structure. The stem turbine has a plurality of pressure stages and is integrated into a fossil-fired steam power plant.