Touch pad with force sensors and actuator feedback

What is claimed is: 1. A track pad that receives input from an external object, the track pad comprising: a touch pad member having a touch pad sensor array that gathers touch sensor array signals indicative of a given location at which the external object has touched the touch pad member; a plurality of force sensors each of which is connected to the touch pad member at a different location, wherein the force sensors produce force output signals indicative of how forcefully the external object is pressing on the touch pad member; wherein touch events are registered based on the touch sensor array signals, wherein the force output signals are compared to a threshold to identify press events, and wherein the touch events are registered while the force output signals are below the threshold and while the force output signals are above the threshold; and an actuator that laterally actuates the touch pad member. 2. The track pad defined in claim 1 wherein the touch pad member is opaque. 3. The track pad defined in claim 2 wherein the touch pad sensor array comprises a capacitive touch sensor having an array of capacitive electrodes. 4. The track pad defined in claim 3 wherein each of the plurality of force sensors comprises a piezoelectric force sensor and wherein the touch pad member is mounted at a fixed location within a computer housing by the plurality of force sensors. 5. The track pad defined in claim 2 wherein the actuator comprises at least one coil of wire, wherein the touch pad member is substantially planar and lies in a plane, and wherein the actuator imparts lateral in-plane movement to the touch pad member. 6. The track pad defined in claim 2 wherein the touch pad member is substantially planar and has edges and wherein actuator comprises a solenoid with a plunger that imparts movement to one of the edges. 7. The track pad defined in claim 2 wherein the touch pad member comprises a rigid substantially planar structure that has an edge and wherein the actuator is coupled to the edge and moves the touch pad member by imparting lateral in-plane force to the edge. 8. The track pad defined in claim 2 , wherein the actuator comprise an electromagnetic actuator that is controlled by a drive signal, wherein the touch pad member comprises a rigid touch pad member that lies in a plane, wherein the touch pad member has left, right, rear, and front edges, wherein the left and right edges are shorter than the rear and front edges, wherein the actuator is coupled to a selected one of the left edge and the right edge, and wherein the actuator moves the touch pad member horizontally within the plane without moving the touch pad member vertically out of the plane. 9. The track pad defined in claim 8 wherein the touch pad member comprises a rigid rectangular member that is globally actuated by the actuator and wherein the plurality of force sensors comprises four force sensors each of which is located at a respective corner of the touch pad member and each of which produces a separate analog force output signal indicative of how forcefully the external object is pressing on the touch pad member. 10. The track pad defined in claim 9 further comprising flexible pads coupled to each of the four force sensors. 11. The track pad defined in claim 10 wherein the flexible pads comprise gel and wherein the force sensors comprise piezoelectric force sensors. 12. A method of operating an electronic device having a display and a computer track pad that has a touch pad member with a touch sensor array, force sensors connected to the touch pad member, and an actuator, the method comprising: with the touch sensor array, determining a location of an external object in contact with the touch pad member of the track pad and registering a touch event; with each of the force sensors, measuring how much force is applied to the touch pad member of the track pad with the external object and identifying a press event by comparing a force output signal of the force sensors with a force threshold; and with the actuator, imparting global movement to the touch pad member of the track pad based at least partly on data gathered with the force sensors, wherein the touch event is registered while the force output signal is below the force threshold and while the force output signal is above the force threshold. 13. The method defined in claim 12 further comprising: based on the determined location of the external object, operating a graphical user interface on the display. 14. The method defined in claim 12 wherein the actuator is driven by actuator drive signals to impart the movement to the touch pad member of the track pad, the method further comprising: gathering user-defined driver settings; and when imparting movement to the touch pad member of the track pad, generating the actuator drive signals based at least partly on the user-defined driver settings. 15. The method defined in claim 14 wherein there are four of the force sensors each of which is located under a respective corner of the touch pad member of the track pad, wherein the force sensor signals comprise analog force sensor signals, and wherein measuring how much force is applied to the touch pad member of the track pad comprises: gathering separate analog force sensor signals from each of the four force sensors; and combining the analog force sensor signals that have been gathered. 16. The method defined in claim 15 wherein combining the analog force sensor signals comprises digitally averaging the analog force sensor signals. 17. The method defined in claim 13 wherein operating the graphical user interface on the display comprises: based on the determined location of the external object in contact with the touch pad member of the track pad, indirectly controlling a cursor on the display. 18. A computer track pad system, comprising: a rigid rectangular touch pad member that includes a capacitive touch sensor array and that has four corners, wherein the rigid rectangular touch pad member is opaque; four force sensors, each force sensor being coupled to a respective one of the four corners; at least one actuator that is connected to an edge of the rigid rectangular touch pad member by a coupling member and that imparts movement to all of the rigid rectangular touch pad member in response to actuator drive signals; and circuitry that processes touch sensor data from the capacitive touch sensor array and analog force data from the force sensors and that produces the actuator drive signals for the actuator based on the touch sensor data from the capacitive touch sensor array and based on the analog force data from the force sensors. 19. The computer track pad system defined in claim 18 wherein the rigid rectangular touch pad member is substantially opaque and comprises: a rectangular planar layer of glass; and a layer of opaque ink covering at least one surface of the layer of glass that prevents light from passing through the layer of glass. 20. The computer track pad system defined in claim 18 wherein each of the four force sensors produces a corresponding analog force signal and wherein the circuitry is configured to process the analog force signals from the four force sensors to produce an average force signal. 21. The computer track pad system defined in claim 20 wherein the circuitry is configured to identify button press and button release activity by processing the average force signal and wherein the button press and button release