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A liquid heating system includes an electric current controller, a first container, and a second container. The first container includes a first liquid and a first electric heating system. The second container includes a second liquid and a second electric heating system. The electric current contro

A liquid heating system includes an electric current controller, a first container, and a second container. The first container includes a first liquid and a first electric heating system. The second container includes a second liquid and a second electric heating system. The electric current controller is connected to the first electric heating system and to the second electric heating system. The electric current controller is configured to automatically alternate between providing electric current to the first electric heating system and to the second electric heating system such that when the electric current controller is providing the current to the first electric heating system the electric current controller provides no electric current to the second electric heating system and when the electric current controller is providing the current to the second electric heating system the electric current controller provides no electric current to the first electric heating system.

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1. A liquid heating system, comprising an electric current controller, a first container, and a second container, wherein said first container includes a first liquid and a first electric heating system, wherein said second container includes a second liquid and a second electric heating system, whe

1. A liquid heating system, comprising an electric current controller, a first container, and a second container, wherein said first container includes a first liquid and a first electric heating system, wherein said second container includes a second liquid and a second electric heating system, wherein said electric current controller is connected to said first electric heating system and to said second electric heating system, wherein said electric current controller is configured to automatically alternate between providing electric current to said first electric heating system and to said second electric heating system, wherein when said electric current controller is providing said electric current to said first electric heating system said electric current controller provides no electric current to said second electric heating system and wherein when said electric current controller is providing said electric current to said second electric heating system said electric current controller provides no electric current to said first electric heating system. 2. A liquid heating system as recited in claim 1, wherein said first liquid is conductive and wherein said first electric heating system includes said electric current passing through said first liquid. 3. A liquid heating system as recited in claim 2, wherein said first container includes a first food steamer. 4. A liquid heating system as recited in claim 1, wherein said first container includes a plurality of electrodes, wherein said electric current controller includes a circuit for limiting current flowing in said liquid to a preselected current level without changing voltage applied between said electrodes. 5. A liquid heating system as recited in claim 4, wherein said circuit for limiting current flowing in said liquid includes a circuit for removing one of said electrodes from connection to power or neutral while leaving at least one other of said electrodes connected to power and at least one other of said electrodes connected to neutral. 6. A liquid heating system as recited in claim 1, wherein each said steam container includes four electrodes. 7. A liquid heating system as recited in claim 6, further comprising a control circuit to disconnect contact to one of said four electrodes if current passing through said conductive water solution exceeds a threshold. 8. A liquid heating system as recited in claim 7, wherein said electric current controller circuit disconnects connection to a second of said four electrodes if current passing through said conductive liquid exceeds a second threshold. 9. A liquid heating system as recited in claim 1, wherein said electric current controller includes a circuit for adjusting time for providing electric current to said first electric heating system and for providing no electric current to said first electric heating system. 10. A liquid heating system as recited in claim 9, wherein said circuit for adjusting time for providing electric current to said first electric heating system and for providing no electric current to said first electric heating system includes a pulse width modulation circuit. 11. A liquid heating system as recited in claim 9, wherein each said container includes four electrodes. 12. A liquid heating system as recited in claim 9, further comprising a source of electric current that has a maximum current capacity, wherein said electric current controller is arranged to be connected to said source of electric current and arranged to maintain said electric current to each container of said plurality of containers at a level that is equal to or greater than half of said maximum current capacity. 13. A liquid heating system as recited in claim 9, wherein said electric current controller includes a current sensor positioned for measuring said electric current, wherein said electric current controller is connected for using information from said current sensor to automatically reduce said power provided to one of said containers by disconnecting electrical connection to one of said plurality of electrodes. 14. A liquid heating system as recited in claim 9, wherein said electric current controller is configured to switch between providing all electric current exclusively to a first container of said plurality of containers and providing all electric current exclusively to a second container of said plurality of containers. 15. A liquid heating system as recited in claim 9, wherein said base unit includes an interlock, wherein each container includes a cover, wherein said cover activates said interlock when said container with said cover is inserted in said base unit, wherein power can be supplied only when said cover activates said interlock. 16. A liquid heating system as recited in claim 9, wherein each container includes a steam chamber for holding food for steaming. 17. A liquid heating system as recited in claim 9, wherein electric current flow is arranged to automatically turn off when said conductive liquid level falls below one electrode of said pair of electrodes. 18. A liquid heating system as recited in claim 9, wherein said electric current controller includes a circuit for limiting current flowing in said conductive liquid to a preselected current level without changing voltage applied between said electrodes. 19. A liquid heating system as recited in claim 9, wherein said electric current controller includes a circuit for adjusting time for providing electric current to said electrodes and for providing no electric current to said electrodes. 20. A liquid heating system as recited in claim 19, wherein said circuit for adjusting time for providing electric current to said electrodes and for providing no electric current to said electrodes includes a pulse width modulation circuit. 21. A liquid heating system, comprising an electric current controller and a plurality of containers, wherein each container of said plurality of containers holds a first electrode, a second electrode, and a conductive liquid, wherein each said conductive liquid has a conductivity, wherein said first electrode and said second electrode are connected to said electric current controller to provide an electric current passing through said conductive liquid, wherein said electric current controller includes a circuit that provides said electric current to pass through said conductive liquid in one of said containers for a period of time while not providing said electric current to pass through another conductive liquid in any another container during that same period of time, wherein said electric current controller sequentially and automatically provides said current to said conductive liquid in all of said containers during a multiple of said period of time. 22. A liquid heating system as recited in claim 21, further comprising a source of electric current that has a maximum current capacity, wherein said electric current controller is connected to said source of electric current and maintains said electric current to each container of said plurality of containers at a level that is equal to or greater than half of said maximum current capacity. 23. A liquid heating system as recited in claim 22, wherein said electric current controller maintains said electric current to each container of said plurality of containers at a level that is equal to or greater than ¾ of said maximum current capacity. 24. A liquid heating system as recited in claim 21, wherein said conductive liquid includes water and wherein said electric current controller maintains said electric current to each container of said plurality of containers at a level to cause said water to boil and generate steam. 25. A liquid heating system as recited in claim 21, wherein said electric current controller includes a current sensor positioned for measuring said electric current, wherein said electric current controller is connected for using information from said current sensor to automatically maintain said electric current at a specified level for each container of said plurality of containers. 26. A liquid heating system as recited in claim 21, wherein said electric current controller is configured to switch between providing all electric current exclusively to a first container of said plurality of containers and providing all electric current exclusively to a second container of said plurality of containers. 27. A liquid heating system as recited in claim 21, wherein said electrodes are fabricated of a material including at least one from the group consisting of titanium and graphite. 28. A liquid heating system as recited in claim 21, wherein each of said containers is fabricated of a material including at least one from the group consisting of high density polyethylene, PTFE, glass, and a dielectric coated metal. 29. A liquid heating system as recited in claim 21, wherein each of said containers includes a cover, wherein said cover includes an adjustable steam vent. 30. A liquid heating system as recited in claim 21, further comprising a base unit, wherein each container of said plurality of containers includes an electrical connector for connection to said base unit. 31. A liquid heating system as recited in claim 30, wherein said base unit includes an interlock, wherein each container includes a cover, wherein said cover activates said interlock when said container with said cover is inserted in said base unit, wherein power can be supplied only when said cover activates said interlock. 32. A liquid heating system as recited in claim 30, wherein each container includes a handle permitting manually connecting said container to said base unit, wherein said handle is located on a side of said container opposite said electrical connector. 33. A liquid heating system as recited in claim 21, wherein each container includes a steam chamber for holding food for steaming. 34. A liquid heating system as recited in claim 21, further comprising a control circuit to disconnect contact to one of said electrodes if current passing through said conductive water solution exceeds a threshold. 35. A liquid heating system as recited in claim 34, wherein each said steam container includes a third and a fourth electrode, wherein said electric current controller circuit disconnects connection to a second of said electrodes if current passing through said conductive liquid exceeds a second threshold. 36. A liquid heating system as recited in claim 21, wherein said electric current controller includes a circuit for limiting current flowing in said liquid to a preselected current level without changing voltage applied between said first and said second electrodes. 37. A liquid heating system as recited in claim 24, further comprising using said steam for cooking food. 38. A liquid heating system, comprising a base unit and a plurality of electric steam containers, wherein each said steam container includes a pair of electrodes and a conductive water solution, wherein said pair of electrodes are configured to provide electric current passing through said conductive water solution for heating said conductive water solution, wherein each of said electric steam containers is removably electrically connected to said base unit with a quick connect and quick release connector, wherein said base unit provides an automatic control function over operation of each said electric steam container and wherein steam is generated in each said electric steam container independently of any other electric steam container being connected. 39. A liquid heating system as recited in claim 38, wherein each said steam container includes four electrodes. 40. A liquid heating system as recited in claim 39, further comprising a control circuit to disconnect contact to one of said four electrodes if current passing through said conductive water solution exceeds a threshold. 41. A liquid heating system as recited in claim 38, wherein electric current flow automatically turns off when said conductive water solution level falls below one electrode of said pair of electrodes. 42. A liquid heating system as recited in claim 38, wherein each said container includes a plurality of electrodes, wherein said electric current controller includes a circuit for limiting current flowing in said liquid to a preselected current level without changing voltage applied between said electrodes. 43. A liquid heating system as recited in claim 40, wherein said electric current controller circuit disconnects connection to a second of said four electrodes if current passing through said conductive liquid exceeds a second threshold. 44. A liquid heating system, comprising a base unit and a plurality of containers, wherein said base unit includes an electric current controller that is connected to provide an automatic control function over operation of each said container, and wherein the conductive liquid is heated in each said container independently of any other container being connected when said container holds the conductive liquid, wherein each said container includes a plurality of electrodes, wherein said electric current controller is configured to reduce power provided to one of said containers by disconnecting electrical connection to one of said plurality of electrodes in said container if current passing through said conductive liquid exceeds a threshold. 45. A liquid heating system as recited in claim 44, wherein said electric current controller is arranged to maintain said electric current to each container of said plurality of containers at a level that is equal to or greater than ¾ of said maximum current capacity.