Circuit breaker using multiple connectors

The invention claimed is: 1. A circuit breaker comprising: a stationary contact that is electrically connected to a first terminal; a movable tulip contact comprising: a first end comprising a plurality of contact fingers configured to removably attach to the stationary contact, and a second end that is electrically connected to a second terminal, wherein the tulip contact and stationary contact provide a first conductive path from the first terminal to the second terminal when the tulip contact is connected to the stationary contact; and a vacuum interrupter comprising: a first electrode assembly that is electrically connected to the first terminal, and a second electrode assembly that is electrically connected to the second terminal, wherein: the vacuum interrupter provides a second conductive path from the first terminal to the second terminal when the vacuum interrupter is in a closed position, the second terminal is a movable terminal, and the circuit breaker further comprises a plurality of busbars that electrically connect the second end of the tulip contact to the second terminal. 2. The circuit breaker of claim 1 , wherein the vacuum interrupter and the second conductive path are positioned at least partially within the tulip contact when the tulip contact is connected to the stationary contact. 3. The circuit breaker of claim 2 , wherein the tulip contact is configured to withdraw from and expose the vacuum interrupter when the tulip contact is separated from the stationary contact and moved to an open position. 4. The circuit breaker of claim 1 , wherein: the tulip contact is configured to carry a majority of a rated current of the circuit breaker when the tulip contact is in a closed position; and the vacuum interrupter is configured to interrupt a short circuit current when the first electrode assembly and the second electrode assembly are separated to open the vacuum interrupter. 5. The circuit breaker of claim 1 , wherein: the first electrode assembly is a fixed electrode assembly and comprises: a first coil comprising one or more arcuate arms, and a first contact plate that is positioned between the first coil and the second electrode assembly; and the second electrode assembly is a movable electrode assembly and comprises: a second coil comprising one or more arcuate arms, and a second contact plate that is positioned between the second coil and the first electrode assembly. 6. The circuit breaker of claim 1 , further comprising a drive assembly that is operable to switch the circuit breaker from a closed configuration to an open configuration by: interrupting the first conductive path by separating the tulip contact from the stationary contact and moving the tulip contact to a distance that is at least a length of the vacuum interrupter away from the stationary contact; and after the tulip contact separates from the stationary contact, interrupting the second conductive path by separating the first electrode assembly of the vacuum interrupter from the second electrode assembly of the vacuum interrupter. 7. The circuit breaker of claim 1 , further comprising: a first drive assembly that is operable to interrupt the first conductive path by separating the tulip contact from the stationary contact and moving the tulip contact to a distance that is at least a length of the vacuum interrupter away from the stationary contact; and a second drive assembly that is operable to, after the tulip contact reaches the distance, interrupt the second conductive path by separating the first electrode assembly of the vacuum interrupter from the second electrode assembly of the vacuum interrupter. 8. The circuit breaker of claim 7 , wherein the second drive assembly comprises a contact spring between the second electrode assembly and the second terminal. 9. A method of operating a circuit breaker, wherein: the circuit breaker comprises: a stationary contact that is electrically connected to a first terminal, a movable tulip contact, a vacuum interrupter comprising: a first electrode assembly that is electrically contacted to the first terminal; and a second electrode assembly that is electrically connected to a movable second terminal, and a plurality of busbars that electrically connect the tulip contact to the second terminal; and the method comprises: passing current through the circuit breaker while the tulip contact is connected to the stationary contact and the vacuum interrupter is in a closed position, so that the tulip contact and stationary contact provide a first conductive path from the first terminal to the second terminal, separating the tulip contact from the stationary contact for a first period while the vacuum interrupter is in the closed position, so that the first conductive path is interrupted and the vacuum interrupter provides a second conductive path from the first terminal to the second terminal, and after the first period, opening the vacuum interrupter by separating the first electrode assembly from the second electrode assembly to result in both the first conductive path and the second conductive path being interrupted. 10. The method of claim 9 , wherein the vacuum interrupter and the second conductive path are positioned at least partially within the tulip contact when the tulip contact is connected to the stationary contact. 11. The method of claim 10 , wherein separating the tulip contact from the stationary contact also withdraws the tulip contract from and exposes the vacuum interrupter. 12. The method of claim 9 , wherein: the vacuum interrupter interrupts a short circuit current when the first electrode assembly and the second electrode assembly are separated to open the vacuum interrupter. 13. The method of claim 9 , wherein: the first electrode assembly is a fixed electrode assembly and comprises: a first coil comprising one or more arcuate arms, and a first contact plate that is positioned between the first coil and the second electrode assembly; and the second electrode assembly is a movable electrode assembly and comprises: a second coil comprising one or more arcuate arms, and a second contact plate that is positioned between the second coil and the first electrode assembly. 14. The method of claim 9 , further operating a drive assembly to switch the circuit breaker from a closed configuration to an open configuration by: interrupting the first conductive path by separating the tulip contact from the stationary contact and moving the tulip contact to a distance that is at least a length of the vacuum interrupter away from the stationary contact; and after the tulip contact separates from the stationary contact, interrupting the second conductive path by separating the first electrode assembly of the vacuum interrupter from the second electrode assembly of the vacuum interrupter. 15. The method of claim 9 , further comprising: operating a first drive assembly to interrupt the first conductive path by separating the tulip contact from the stationary contact and moving the tulip contact to a distance that is at least a length of the vacuum interrupter away from the stationary contact; and operating a second drive assembly to, after the tulip contact reaches the distance, interrupt the second conductive path by separating the first electrode assembly of the vacuum interrupter from the second electrode assembly of the vacuum interrupter. 16. The method of claim 15 , wherein the second drive assembly comprises a contact spring between the second electrode assembly and the second term