Electrically conductive mechanical vibration isolator

What is claimed is: 1. A conductive vibration isolator for use in a vehicle to provide electrical continuity between an electrical component and a support structure, the isolator comprising: a hollow inner shell attached to one of the electrical component or the support structure, said inner shell having a long axis; an outer shell attached to the other of the electrical component or the support structure, said outer shell having a long axis that is coaxial with said long axis of said inner shell; an elastomer between said shells, said elastomer having a plurality of channels formed between said shell, each one of said plurality of channels extending between said inner and outer shells; and a conductive liquid disposed within each one of said plurality of channels, wherein the inner and outer shells are coupled together and maintained in relatively fixed positions with respect to one another during use with the elastomer absorbing kinetic energy and vibrations between the inner and outer shell. 2. The conductive vibration isolator of claim 1 , wherein said conductive liquid is a water-based slurry mixed with conductive particles selected from the group consisting of silver, copper, gold, aluminum, brass, nickel, iron, bronze, inconel, molybdenum, molybdenum carbide, monel, and stainless steel. 3. The conductive vibration isolator of claim 1 , wherein said inner and outer shells are manufactured from a material selected from the group consisting of iron, steel, stainless steel, copper, aluminum, chromate, and nickel. 4. A conductive vibration isolator for use in a vehicle to provide electrical continuity between an electrical component and a support structure, the isolator comprising: a hollow inner shell attached to one of the electrical component or the support structure, said inner shell having a long axis; an outer shell attached to the other of the electrical component or the support structure, said outer shell having a long axis that is coaxial with said long axis of said inner shell; an elastomer between said shells, said elastomer having a plurality of channels formed between said shells, each one of said plurality of channels extending between said inner and outer shells; and a conductive liquid disposed within each one of said plurality of channels, wherein the positions of the inner and outer shells relative to one another are maintained in relatively fixed positions during use with the elastomer absorbing kinetic energy and vibrations between the inner and outer shell. 5. The conductive vibration isolator of claim 4 , wherein said conductive liquid is a water-based slurry mixed with conductive particles selected from the group consisting of silver, copper, gold, aluminum, brass, nickel, iron, bronze, inconel, molybdenum, molybdenum carbide, monel, and stainless steel. 6. The conductive vibration isolator of claim 4 , wherein said inner and outer shells are manufactured from a material selected from the group consisting of iron, steel, stainless steel, copper, aluminum, chromate, and nickel.