Capacitive-sensing paint borer

What is claimed is: 1. A boring apparatus comprising: a drill comprising a drill bit; a capacitance sensor having a ground plane and a threshold capacitance; and an alarm; wherein the capacitance sensor is electrically connected to the drill bit and the capacitance sensor detects a change in the electrical field between the drill bit and the capacitance sensor's ground plane to detect a change in capacitance associated with a substrate material in proximity to the drill bit; wherein the capacitance sensor creates a sensor signal when the detected change in capacitance is greater than the threshold capacitance of the capacitance sensor; and wherein the capacitance sensor is electrically connected to the alarm, and wherein the alarm creates an alarm signal upon receipt of the sensor signal from the capacitance sensor. 2. The boring apparatus of claim 1 , further comprising: a power source electrically connected to the drill, the capacitance sensor, and the alarm to supply electrical power to the drill, the capacitance sensor, and the alarm. 3. The boring apparatus of claim 1 , wherein the boring apparatus contains the drill, the capacitance sensor, and the alarm within a contoured body, and the boring apparatus is configured for single-hand manipulation. 4. The boring apparatus of claim 1 , wherein the change in capacitance greater than the threshold corresponds to direct contact with a material with a significant dielectric constant. 5. The boring apparatus of claim 1 , wherein the change in capacitance greater than the threshold corresponds to direct contact with a conductive material. 6. The boring apparatus of claim 1 , wherein the alarm creates at least one of an audible and a visual alarm signal upon receipt of the sensor signal. 7. The boring apparatus of claim 1 , further comprising a connector to electrically connect the drill bit to the capacitance sensor. 8. The boring apparatus of claim 7 , wherein the connector comprises a collet supporting the drill bit. 9. The boring apparatus of claim 8 , wherein the capacitance sensor comprises an electrical brush electrically connected to the connector to create an electrical connection between the capacitance sensor and the drill bit. 10. A capacitive-sensing boring apparatus, comprising: a body; a power source assembly; a drill assembly comprising a drill bit; a capacitance sensor; and an alarm, wherein the power source assembly provides power to the drill assembly, the capacitance sensor, and the alarm, and wherein the capacitance sensor is configured to measure a change in capacitance between the drill bit and an internal reference plane of the capacitance sensor according to a change in capacitive load associated with a material in proximity to the drill bit, and the capacitance sensor creates a sensor signal when a threshold change in capacitance is detected, and wherein the alarm creates an alarm signal upon receipt of the sensor signal. 11. The capacitive-sensing boring apparatus of claim 10 , wherein the body comprises a base configured to stably rest upon contoured surfaces. 12. The capacitive-sensing boring apparatus of claim 11 , wherein the base is a three-point base. 13. The capacitive-sensing boring apparatus of claim 10 , wherein the material in proximity to the drill bit comprises a metallic or composite material and the threshold change in capacitive load corresponds to direct contact between the drill bit and the metallic or composite material. 14. The capacitive-sensing boring apparatus of claim 10 , wherein the material in proximity to the drill bit comprises a metallic or composite material and the threshold change in capacitive load corresponds to proximity between the drill bit and the metallic or composite material. 15. The capacitive-sensing boring apparatus of claim 10 , wherein the threshold change in capacitive load corresponds to direct contact between the drill bit and a material with a dielectric constant of 5 or greater. 16. A method of boring through one or more coating layers disposed over a metallic or composite substrate, comprising: boring a hole through one or more coating layers deposited over the metallic or composite substrate; wherein the metallic or composite substrate has a dielectric constant of 5 or greater and is capable of providing a significant capacitive load, and wherein the boring of the hole through the one or more coating layers comprises detecting a change in a capacitance associated with the metallic or composite substrate to prevent or reduce boring into the metallic or composite substrate. 17. The method of claim 16 , wherein the detecting of the change in the capacitance corresponds to direct contact with the metallic or composite substrate during the boring of the hole through the one or more coating layers. 18. The method of claim 17 , further comprising: creating an alarm signal when the change in the capacitance is detected. 19. The method of claim 16 , further comprising: measuring at the hole bored through the one or more coating layers a visible width of the one or more coating layers deposited over the substrate to determine their thickness. 20. The method of claim 16 , wherein the boring of the hole uses a boring apparatus according to claim 1 .