Dual parallel moveable electrical contacts/relays

What is claimed is: 1. A mechanical switching system comprising: a first moveable contact operatively configured to selectively contact a first static contact; and a second moveable contact that is electrically connected in parallel with the first moveable contact and operatively configured to selectively connect a second static contact that is electrically connected in parallel with the first static contact, wherein the first and second moveable contacts are mechanically connected to each other to move the mechanical switching system between a closed circuit position defined by the second movable being in contact with the second static contact, and an open circuit position defined by both the first movable contact being disconnected from the first static contact and the second movable contact being disconnected from the second static contact, wherein the first moveable contact contacts the first static contact before the second moveable contact contacts the second static contact as the mechanical switching system is moved from the open circuit position to the closed circuit position, wherein the first moveable contact disconnects from the first static contact after the second moveable contact disconnects from the second static contact as the mechanical switching system is moved from the closed circuit position into the open circuit position, wherein the first moveable contact and the first static contact include respective contact points of a first material that is different from a second material included in respective contact points of the second moveable contact and the second static contact, and wherein the second material provides a lower voltage drop than that of the first material, further comprising an actuator mechanically connected to the first and second moveable contacts, wherein in the open circuit position, the first moveable contact is separated from the first static contact by a first gap that is smaller than a second gap separating the second moveable contact from the second static contact in the open circuit position, wherein a first spring mechanically connects between the second moveable contact and the actuator, wherein the first spring is configured to accommodate continued stroke of the actuator moving after the second moveable contact contacts the second static contact. 2. The system as recited in claim 1 , wherein a second spring mechanically connects between the first moveable contact and the actuator, wherein the second spring is configured to accommodate continued stroke of the actuator moving the second moveable contact after the first moveable contact contacts the first static contact. 3. The system as recited in claim 1 , wherein the first and second static contacts and the first and second moveable contacts are all on one side of the actuator. 4. The system as recited in claim 1 , wherein the actuator is a commandable actuator configured to actuate between the open and closed circuit positions based on input. 5. The system as recited in claim 4 , wherein the actuator includes a solenoid motor. 6. The system as recited in claim 1 , wherein the first moveable contact includes two separate electrical contact points, and wherein the first static contact includes two respective contact points aligned for contacting the two separate electrical contact points of the first moveable contact. 7. The system as recited in claim 1 , wherein the second moveable contact includes two separate electrical contact points, and wherein the second static contact includes two respective contact points aligned for contacting the two separate electrical contact points of the second moveable contact. 8. The system as recited in claim 1 , wherein the contacts are configured such that when the mechanical switching system is in the closed circuit position a first resistance across the first contacts is more than a second resistance across the second contacts.