1. A selectively energizable keyboard system comprising a set of selectively operable pushbutton members each movable in one direction from a retracted to an activating position, each of said pushbutton members having an exposed surface adapted to receive the application of a preselected mechanical force to effect movement into said activating position and having an opposed surface adapted to transmit said force, a set of conductive elements in registration with respective opposed surface of said pushbutton members, each of said elements having a dished surface of curvature when in an unactuated condition, said surface being in abutment with said opposed surface of one of said pushbutton members and adapted to be deflected into an over-center position in response to the application of said preselected force transmitted by actuation of said pushbutton member, a generally planar conductive member disposed adjacent said set of conductive elements, said conductive member including a plurality of contact sections arranged in electrical contact with said conductive elements, and a support member having a plurality of conductive paths arranged at a surface thereof in spaced facing relationship with said plurality of sections of said conductive member, selected ones of said conductive paths being electrically connected to said conductive member through a bridging electrical connection established between said conductive member and one of said conductive elements only when said conductive element is in an over-center position.

16. A pushbutton keyboard system adapted to generate electrical information in response to actuation thereof comprising a support member having a generally planar surface at which a plurality of conductive paths are arranged in a preselected pattern and adapted to transmit electrical information in response to energization thereof, a generally planar sheet of conductive material disposed in spaced, facing relationship with said pattern of conductive paths, said sheet of conductive material including a plurality of contact areas adapted to be selectively electrically coupled to portions of said conductive paths for effecting energization thereof, a plurality of selectively actuatable conductive elements disposed in electrical contact with said contact areas and in selective disengagement with said portions of said conductive paths, said conductive elements being adapted to be individually deflected into a position of engagement with said portions of said conductive paths in response to the application of a preselected deflecting force thereto, thereby effecting an instantaneous bridging electrical contact between said conductive sheet and one of said conductive paths, and means for applying the preselected deflecting force to said conductive elements including a plurality of pushbutton members adapted to be manually actuated to apply the preselected deflecting force to said conductive elements to effect deflection thereof into said position of engagement with said conductive paths, each of said pushbutton members including a force applying surface adjacent an associated conductive element and an exposed surface adapted to be symbolized in a manner indicative of the electrical information to be transmitted by the establishment of electrical contact between said conductive layer and said portion of said conductive path.

29. In an electronic calculator; a pushbutton keyboard system adapted to enter electrical information in response to actuation, said keyboard system including a support member having a generally planar surface at which a plurality of conductive paths are arranged in a preselected pattern and adapted to transmit electrical information in response to energization thereof, a generally planar sheet of conductive material disposed in spaced, facing relationship with said pattern of conductive paths, said sheet of conductive material including a plurality of contact areas adapted to be selectively electrically coupled to portions of said conductive paths for effecting energization thereof, a plurality of selectively actuatable conductive elements disposed in electrical contact with said contact areas and in selective disengagement with said portions of said conductive paths, said conductive elements being adapted to be individually deflected into a position of engagement with said portions of said conductive paths in response to the application of a preselected deflecting force thereto, thereby effecting an instantaneous bridging electrical contact between said conductive sheet and one of said conductive paths, and means for applying the preselected deflecting force to said conductive elements including a plurality of pushbutton members adapted to be manually actuated to apply the preselected deflecting force to said conductive elements to effect deflection thereof into said position of engagement with said conductive paths, each of said pushbutton members including a force applying surface adjacent an associated conductive element and an exposed surface adapted to be symbolized in a manner indicative of the electrical information to be transmitted by the establishment of electrical contact between said conductive layer and said portion of said conductive path; at least one semiconductor device supported on said support member, said semiconductor device having a plurality of circuit elements at a surface thereof, electrically coupled to said conductive paths, said circuit elements being adapted to generate electrical signals in response to electrical information applied tHereto from said conductive paths upon the establishment of electrical contact between said conductive sheet and said conductive paths; and indicating means supported by said support member in communication with said semiconductor device for providing an indication of the electrical signals generated in response to information applied to said circuit elements.

30. A multiple switching system comprising in combination: a plurality of spaced actuating members selectively movable from a first to a second position; a plurality of contact elements respectively contiguous with said actuating members, each of said elements having a double curved outer surface with a selected area thereof being contiguous to a selected portion of said actuating members, said elements being selectively movable from a first to a second position in response to selective movement of said actuating members; a support member adjacent to but spaced from said elements and having a plurality of spaced contacts formed thereon respectively positioned adjacent to but spaced from said elements; an array of conductive areas respectively arranged intermediate said elements and said contacts; and means for holding said actuating members, said elements, said support member, and said conductive areas in relative position; whereby when said actuating members are selectively moved from their first to their second position, said respective element is moved from its first to its second position into contact with its respective spaced contact and electrically connects its respective conductive area to its respective spaced contact and when said actuating members are selectively moved from their second to their first position, said respective element automatically moves from its second to its first position out of contact with its respective spaced contact and electrically disconnects its respective conductive area from its respective spaced contact.