Accelerated motion relay

What is claimed: 1 . A method for use in switching electrical power using a relay, the relay including a moveable electrode structure and first and second circuit electrodes, wherein said moveable electrode structure is moveable from a first position, where said moveable electrode structure electrically contacts said first circuit electrode to enable current flow in a first circuit, and a second position, where said moveable electrode structure electrically contacts said second circuit electrode, said method comprising the steps of, in connection with performing a switching function wherein said moveable electrode structure moves on a path across a space between said first position and said second position; accelerating said moveable electrode structure during a first portion of travel of said moveable electrode structure on said path across said space; and decelerating said moveable electrode structure during a second portion of travel of said moveable contact structure on said path across said space, wherein: at least one of said steps of accelerating and decelerating comprises operating an electromagnetic drive system to exert a force on said moveable electrode structure; said electromagnetic drive system exerts a first force on said moveable electrode structure from a first position on a first side of said a space between said first and second circuit electrodes and exerts a second force on said moveable electrode structure from a second position on a second side of said space; and said first force and second force are applied in different directions with respect to an axis extending between said first and second circuit electrodes. 2 . The method as set forth in claim 1 , wherein said moveable electrode structure comprises an armature having at least one contact formed thereon for establishing electrical contact with said first and second circuit electrodes. 3 . The method as set forth in claim 1 , wherein said electromagnetic drive system exerts force on said moveable electrode structure from a first position on a first side of a space between said first and second circuit electrodes, and said accelerating comprises driving said electromagnetic drive system with current of a first polarity, and said decelerating comprises driving said electromagnetic drive system with current of a second polarity. 4 . The method as set forth in claim 1 , wherein said first force and second force are applied in the same direction with respect to an axis extending between said first and second circuit electrodes. 5 . The method as set forth in claim 1 , wherein said step of accelerating occurs during a first half of said travel of said moveable electrode structure on said path across said space and said step of decelerating occurs during a second half of said travel of said moveable electrode structure on said path across said space. 6 . The method as set forth in claim 1 , wherein said accelerating and decelerating are controlled to be substantially symmetrical with respect to a midpoint of said path across said space. 7 . The method as set forth in claim 1 , wherein a distance between said first and second circuit electrodes is at least about 1.5 mm and a transit time, for said moveable electrode structure between said first and second positions is no more than 20 milliseconds. 8 . The method as set forth in claim 1 , further comprising controlling operation of said electromagnetic drive system to provide a selected transit time of said moveable electrode structure between said first and second circuit electrodes. 9 . The method as set forth in claim 1 , further comprising forming an electrode of said moveable electrode structure from gold. 10 . The method as set forth in claim 1 , further comprising a circuit reversing a direction of current flow through at least one component of said electromagnetic drive system. 11 . A relay for switching electrical power comprising: a first circuit electrode of a first electrical circuit; a second circuit electrode; a moveable electrode structure moveable between a first position, where said moveable electrode structure electrically contacts said first circuit electrode to enable current flow in said first circuit, and a second position, where said moveable electrode structure electrically contacts said second circuit electrode; and an electromagnetic drive system operative to accelerate said moveable electrode structure during a first portion of travel of said moveable electrode structure on a path across a space between said first and second positions and to decelerate said moveable electrode structure during a second portion of travel of said moveable electrode structure on said path across said space between said first and second positions, wherein: said electromagnetic drive system exerts a first force on said moveable electrode structure from a first position on a first side of said a space between said first and second circuit electrodes and exerts a second force on said moveable electrode structure from a second position on a second side of said space; and said first force and second force are applied in the different directions with respect to an axis extending between said first and second circuit electrodes. 12 . The relay as set forth in claim 11 , wherein said moveable electrode structure comprises an armature having at least one contact formed thereon for establishing electrical contact with said first and second circuit electrodes. 13 . The relay as set forth in claim 11 , wherein said electromagnetic drive system exerts force on said moveable electrode structure from a first position on a first side of a space between said first and second circuit electrodes, and said electromagnetic drive system is operative for accelerating said moveable electrode structure by driving said electromagnetic drive system with current of a first polarity, and for decelerating said moveable electrode structure by driving said electromagnetic drive system with current of a second polarity. 14 . The relay as set forth in claim 11 , wherein said first force and second force are applied in the same direction with respect to an axis extending between said first and second circuit electrodes. 15 . The relay as set forth in claim 11 , wherein said electromagnetic drive system is operative for accelerating said moveable electrode structure during a first half of said travel of said moveable electrode structure on said path across said space and decelerating said moveable electrode structure during a second half of said travel of said moveable electrode structure on said path across said space. 16 . The relay as set forth in claim 11 , further comprising a controller for controlling acceleration and deceleration of said moveable electrode structure to be substantially symmetrical with respect to a midpoint of said path across said space. 17 . The relay as set forth in claim 11 , wherein a distance between said first and second circuit electrodes is at least about 1.5 mm and a transit time, for said moveable electrode structure between said first and second positions is no more than 20 milliseconds. 18 . The relay as set forth in claim 11 , further comprising a controller for controlling operation of said electromagnetic drive system to provide a selected transit time of said moveable electrode structure between said first and second circuit electrodes. 19 . The relay as set forth in claim 11 , wherein an electrode of said moveable electrode structure is formed from gold.