Cathodic corrosion and dry fire protection apparatus and methods for electric water heaters

What is claimed is: 1. A liquid heating apparatus comprising: a corrodible vessel; an electric heating element extending through an interior portion of the corrodible vessel and having an electrically conductive sheath; and a protection apparatus operative to utilize the electrically conductive sheath to (1) inhibit corrosion of the corrodible vessel and/or (2) prevent dry firing of the electric heating element, the protection apparatus including a sensing portion for sensing the magnitude of a voltage potential between the electrically conductive sheath and the corrodible vessel, wherein the protection apparatus further includes a control portion coupled to the sensing portion of the protection apparatus and operative to sequentially (1) measure the magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel in the absence of an impressed voltage potential on the electrically conductive sheath, (2) record the magnitude of the voltage potential if it is above a predetermined value thereof, (3) apply the impressed voltage potential to the electrically conductive sheath equal to the magnitude of the voltage potential that was measured plus a predetermined additional impressed voltage potential magnitude, and (4) terminate the impressed voltage to the electrically conductive sheath. 2. The liquid heating apparatus of claim 1 , wherein: the liquid heating apparatus is an electric water heater. 3. The liquid heating apparatus of claim 1 , wherein: the protection apparatus further includes a sacrificial anode extending through an interior portion of the corrodible vessel. 4. The liquid heating apparatus of claim 3 , wherein: the protection apparatus is operative to utilize the sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel to detect a degree of depletion of the sacrificial anode. 5. The liquid heating apparatus of claim 3 , wherein: the protection apparatus further includes the control portion coupled to the sensing portion of the protection apparatus and operative to measure the sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel and: (1) if the measured voltage potential magnitude is greater than a first predetermined magnitude, provide an indication that the sacrificial anode is still functional, and (2) if the measured voltage potential magnitude is not greater than the first predetermined magnitude, re-measure the sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel, compare the re-measured voltage potential magnitude to a predetermined second magnitude, and then provide at least one indication of a degree of necessity of replacing the sacrificial anode based on the comparison of the re-measured voltage potential magnitude and the predetermined second magnitude. 6. The liquid heating apparatus of claim 1 , wherein: the sensing portion of the protection apparatus includes a resistor and a voltage measuring device operative to sense the magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel across the resistor. 7. The liquid heating apparatus of claim 1 , wherein: the protection apparatus includes apparatus for selectively impressing the voltage on the electrically conductive sheath from an external voltage source, and the protection apparatus functions to provide impressed current cathodic protection to the vessel without utilization in the liquid heating apparatus of a separate anode structure for such function. 8. The liquid heating apparatus of claim 1 , wherein: the protection apparatus further includes the control portion coupled to the sensing portion of the protection apparatus and operative to sequentially (1) measure the sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel, in the absence of an impressed voltage on the electrically conductive sheath, and then (2) output a signal indicative of the dry firing condition of the electric heating element if the measured sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel is not above a predetermined value thereof. 9. A method of protecting a liquid heating apparatus from operational damage, the liquid heating apparatus having a corrodible vessel adapted to hold liquid to be heated, and an electric heating element extending through an interior portion of the corrodible vessel and having an electrically conductive filament sheath, the method comprising the steps of: sensing a magnitude of a voltage potential between the electrically conductive sheath and the corrodible vessel; and utilizing a protection system operative to detect the voltage potential magnitude and use the voltage potential magnitude in (1) inhibiting corrosion of the corrodible vessel and/or (2) preventing dry firing of the electric heating element, wherein the utilizing step includes the further steps of: sequentially (1) measuring the magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel in the absence of an impressed voltage on the electrically conductive sheath, (2) recording the magnitude of the voltage potential if it is above a predetermined value thereof, (3) applying the impressed voltage potential to the electrically conductive sheath equal in magnitude to the recorded voltage potential magnitude plus a predetermined additional impressed voltage potential magnitude, and (4) terminating the impressed voltage to the electrically conductive sheath. 10. The method of claim 9 wherein: the liquid heating apparatus is an electric water heater. 11. The method of claim 9 wherein: the method further comprises the step of extending a sacrificial anode through an interior portion of the vessel, and the step of utilizing a protection system includes the step of using the detected voltage potential magnitude to detect the degree of depletion of the sacrificial anode. 12. The method of claim 11 wherein the utilizing step includes the steps of: utilizing the protection system, if the detected voltage potential magnitude is greater than a first predetermined magnitude, to provide an indication that the sacrificial anode is still functional, and utilizing the protection system, if the measured voltage potential magnitude is not greater than the first predetermined magnitude, to re-measure the sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel, comparing the re-measured voltage potential magnitude to a predetermined second magnitude, and then providing at least one indication of the degree of necessity of replacing the sacrificial anode based on the comparison of the re-measured voltage potential magnitude and the predetermined second magnitude. 13. The method of claim 9 further comprising the step of: selectively impressing a voltage on the electrically conductive sheath from an external voltage source to cause the protection system to provide impressed current cathodic protection to the vessel without utilization in the liquid heating apparatus of a separate anode structure for such function. 14. The method of claim 9 wherein the utilizing step includes the further steps of: (1) measuring the sensed magnitude of the voltage potential between the electrically conductive sheath and the corrodible vessel, in the absence of an impressed voltage on the electrically conductive sheath, and then (2) outputting