Powered toothbrush

What is claimed is: 1. A powered toothbrush apparatus with capacitive touch control, the toothbrush apparatus comprising: a motor; a handle portion; a capacitive touch control panel in the handle portion; a plurality of capacitance sensors operably associated with the control panel, each of the plurality of capacitance sensors having a capacitance value that is changed by a user touching a specific location of the control panel, thereby activating the capacitance sensor; a microprocessor in the handle portion, the microprocessor electrically connected to the plurality of capacitance sensors and the motor, the microprocessor configured to: (1) detect changes in the capacitance values of the plurality of capacitance sensors; (2) measure time intervals occurring between changes in the capacitance values of adjacent ones of the plurality of capacitance sensors; and (3) change speed of the motor upon determining that each of the plurality of capacitance sensors has been activated in a predetermined sequential order and that each of the measured time intervals is at or below a maximum predetermined time interval. 2. The toothbrush apparatus of claim 1 , wherein the speed of the motor is not changed when the microprocessor detects that any one of the measured time intervals is greater than the maximum predetermined time interval preprogrammed into the microprocessor. 3. The toothbrush apparatus of claim 1 , wherein the microprocessor is further configured and operable to change speed of the motor by a first amount upon determining that each of the measured time intervals is at or below the maximum predetermined value, and change speed of the motor by a second different amount upon determining that each of the values is below a second predetermined time interval programmed into the microprocessor, the second predetermined time interval being less than the maximum predetermined time interval. 4. The toothbrush apparatus of claim 1 , wherein each sensor is arranged in a pair with a corresponding conductive sensor target separated from the sensor by a distance and supported by a deformable actuation portion of control panel which is deformable by the application of finger pressure by the user, wherein changing the distance between the sensor and sensor target by applying finger pressure to the deformable actuation portion changes the capacitance associated with the sensor and sensor target pair. 5. The toothbrush apparatus of claim 4 , wherein a user sliding a finger across the sensor targets are positioned and arranged such that a user applying an inward touching force on the deformable actuation portion of the control panel adjacent one of the sensor targets changes the distance between that sensor target and its paired sensor thereby changing the capacitance of the sensor and sensor target pair detected by the microprocessor. 6. The toothbrush apparatus of claim 4 , wherein the sensor targets are formed by a sheet or film of conductive metal applied to the underside of the deformable actuation portion of the control panel. 7. The toothbrush apparatus of claim 4 , wherein the sensors are mounted on a printed circuit board in axially spaced apart relationship, the circuit board located below the control panel. 8. The toothbrush apparatus of claim 4 , further comprising a spacer disposed adjacent each sensor and sensor target pair that maintains the distance between each paired sensor and sensor target. 9. The toothbrush apparatus brush of claim 8 , wherein the spacer is formed of a rigid material which is not deformable by application of finger pressure. 10. The toothbrush apparatus of claim 4 , wherein three pairs of sensor targets and sensors are provided and axially spaced apart along the longitudinal axis in control panel. 11. A powered toothbrush apparatus with capacitive touch control, the toothbrush comprising: a motor; a handle portion; a capacitive touch control panel mounted in the handle portion, the control panel being elastically deformable in response to the application of inward directed finger pressure by a user; a plurality of capacitance sensors mounted in the handle portion, each sensor paired with a corresponding movable conductive sensor target disposed on the deformable control panel above the sensor, each sensor target being movable towards its paired sensor in response to a user applying finger pressure to the control panel, wherein each sensor and sensor target pair has a capacitance that is changed by applying finger pressure on the control panel adjacent to the sensor target; a microprocessor mounted in the handle portion and electrically connected to the sensors and the motor, the microprocessor being configured to: detect changes in the capacitance values of the plurality of capacitance sensors; measure time intervals occurring between changes in the capacitance values of adjacent ones of the plurality of capacitance sensors; and change speed of the motor upon determining that each of the plurality of capacitance sensors has been activated in a predetermined sequential order and that each of the measured time intervals is at or below a maximum predetermined time interval. 12. The toothbrush apparatus of claim 11 , wherein the microprocessor is further configured and operable to change speed of the motor by a first amount upon determining that each of the measured time intervals is at or below the maximum predetermined value, and change speed of the motor by a second different amount upon determining that each of the values is below a second predetermined time interval programmed into the microprocessor, the second predetermined time interval being less than the maximum predetermined time interval.