Combined magnetometer accelerometer MEMS devices and methods

What is claimed is: 1. A microelectromechanical (MEMS) device comprising: a structural member; a plurality of supports suspending the structural member above a bottom electrode; and a plurality of top electrical contacts, each top electrical contact associated with a support; wherein the structural member acts as a current carrying element for a magnetometer operable in at least two dimensions; and the structural member acts as a proof mass for an accelerometer operable in at least two dimensions and supporting concurrent use as a magnetometer and an accelerometer with the same structural MEMS element. 2. The MEMS device according to claim 1 , wherein the plurality of top electrical contacts provide for: an electrical current to be driven along a first axis within the plane of the structural member; and an electrical current to be driven along a second axis within the plane of the structural member perpendicular to the first axis; and the bottom electrode allows for capacitance of a capacitor formed between the bottom electrode and suspended structural member. 3. The MEMS device according to claim 1 , wherein the plurality of top electrical contacts provide for: a first electrical current to be driven along a first axis within the plane of the structural member via the plurality of top electrical contacts such that displacement of the structural element as a result of a Lorentz force due to any magnetic field along a second axis within the plane of the structural member perpendicular to the first axis can be detected via the bottom electrode; and a second electrical current to be driven along the second axis via the plurality of top electrical contacts such that displacement of the structural element as a result of a Lorentz force due to any magnetic field along the first axis can be detected via the bottom electrode; wherein the bottom electrode provides for the capacitance determinations if either the first electrical current and second electrical current and for capacitance determination when neither of the first electrical current and second electrical current are being driven to determine any motion to inertial force along a third axis mutually perpendicular to both the first axis and the second axis. 4. The MEMS device according to claim 1 , wherein at least one of electrical control and electrical drive signals to the MEMS device are varied according to a predetermined sequence in order to provide a series of measurements allowing at least one of magnetic field and acceleration data to be generated and the effect of acceleration on the magnetic field measurements to be removed. 5. The MEMS device according to claim 1 wherein, the MEMS device operates as a magnetometer in at least three dimensions. 6. The MEMS device according to claim 1 wherein, the MEMS device operates as an accelerometer in at least three dimensions.