System and method for joining power rail segments

What is claimed is: 1. An apparatus, comprising: a fishplate having a groove defined by a first lip extending parallel to a longitudinal axis and a second lip extending parallel and opposite to the first lip; a conductive power rail having a top surface, a bottom surface, a rail width, and a rail length, the conductive power rail comprising: a first rail segment including a first end portion within the groove and laterally adjacent the first lip of the fishplate, the first end portion having a first end width less than the rail width; a second rail segment including a second end portion within the groove and laterally adjacent the second lip of the fishplate, the second end portion having a second end width less than the rail width, wherein along a longitudinal distance the first end portion laterally contacts the second end portion between the first lip and the second lip of the fishplate; and at least one connector extending beneath the bottom surface of the conductive power rail and configured to pull the first lip and the second lip together transversely to the longitudinal axis. 2. The apparatus of claim 1 , wherein the fishplate includes a base parallel to the first lip and the second lip and the at least one bolt passes through the base. 3. The apparatus of claim 1 , wherein a combination of the first end width and the second end width equals the rail width. 4. The apparatus of claim 1 , wherein the first end portion has a first end length and the second end portion has a second end length, the longitudinal distance being less than one of the first end length and the second end length. 5. The apparatus of claim 1 , wherein the fishplate has a first edge opposite a second edge along a longitudinal axis, the first end portion and the second end portion being between the first edge and the second edge. 6. The apparatus of claim 1 , wherein the first rail segment includes a first web portion and the second rail segment includes a second web portion, the first web portion contacting the first lip of the fishplate and second web portion contacting the second lip of the fishplate. 7. An assembly of power rails, comprising: an inner conductive rail traversing an inner path, the inner conductive rail having an inner top surface, an inner bottom surface, a first lateral side, a second lateral side, a first inner half, and a second inner half, the first inner half having a first inner face extending from the inner top surface to the inner bottom surface and along an inner longitudinal axis substantially parallel to the first lateral side, the second inner half having a second inner face extending from the inner top surface to the inner bottom surface and substantially parallel to and abutting the first inner face at an inner longitudinal interface; an inner fishplate having a first lateral lip contacting the first lateral side, a second lateral lip contacting the second lateral side, and at least one inner connector, wherein the inner longitudinal interface is located between the first lateral lip and the second lateral lip and the at least one inner connector passes beneath the inner conductive rail; an outer conductive rail traversing an outer path parallel to the inner conductive rail, the outer conductive rail having an outer top surface, an outer bottom surface, a third lateral side, a fourth lateral side, a first outer half, and a second outer half, the first outer half having a first outer face extending from the outer top surface to the outer bottom surface and along an outer longitudinal axis substantially parallel to the third lateral side, the second outer half having a second outer face extending from the outer top surface to the outer bottom surface and substantially parallel to and abutting the first outer face at an outer longitudinal interface; and an outer fishplate having a third lateral lip contacting the third lateral side, a fourth lateral lip contacting the fourth lateral side, and at least one outer connector, wherein the outer longitudinal interface is located between the third lateral lip and the fourth lateral lip and the at least one outer connector passes beneath the outer conductive rail. 8. The assembly of claim 7 , wherein the inner path is a curvature defined by a first radius, the outer path is the curvature defined by a second radius larger than the first radius, and the inner longitudinal interface is longer than the outer longitudinal interface. 9. The assembly of claim 8 , wherein the outer conductive rail is longer than the inner conductive rail. 10. The assembly of claim 7 , further comprising: a middle conductive rail traversing a middle path, the middle conductive rail having a middle top surface, a middle bottom surface, a fifth lateral side, a sixth lateral side, a first middle half, and a second middle half, the first middle half having a first middle face extending from the middle top surface to the middle bottom surface and along a middle longitudinal axis substantially parallel to the fifth lateral side, the second middle half having a second middle face extending from the middle top surface to the middle bottom surface and substantially parallel to and abutting the first middle face at a middle longitudinal interface; and a middle fishplate having a fifth lateral lip contacting the fifth lateral side, a sixth lateral lip contacting the sixth lateral side, and at least one middle connector, the at least one middle connector passing beneath the outer conductive rail. 11. The assembly of claim 10 , wherein the inner path is a curvature defined by a first radius, the middle path is the curvature defined by a second radius larger than first radius, and the outer path is the curvature defined by a third radius larger than the second radius, and the inner longitudinal interface is longer than the middle longitudinal interface. 12. The assembly of claim 7 , wherein the inner longitudinal interface has an inner length along the inner longitudinal axis and the outer longitudinal interface has an outer length along the outer longitudinal axis, and the inner length is different from the outer length. 13. The assembly of claim 7 , wherein the first fishplate has a first edge longitudinally opposite a second edge, and at least a portion of a top surface of the inner conductive rail extends between the first edge and the second edge. 14. A method of installing conductive rails, comprising: positioning a first narrowed end of a first rail segment of an inner rail and a second narrowed end of a second rail segment of the inner rail within a first fishplate, the first rail segment having a first top side, a first bottom side, a first sidewall, and a second sidewall, the first narrowed end having a first face extending between the first top surface and the first bottom surface and substantially parallel to a longitudinal axis of the first rail segment, the second rail segment having a second top side, a second bottom side, a third sidewall, and a fourth sidewall, the second narrowed end having a second face extending between the second top side and the second bottom side and substantially parallel to a longitudinal axis of the second rail segment; contacting the first face of the first narrowed end and the second face of the second narrowed end across a first longitudinal distance within the first fishplate; tightening at least one first connector within the first fishplate extending beneath at least one of the first rail segment and the second rail segment; positioning a third narrowed end of a third rail segment and a fourth narrowed end of a fourth rail segment of an outer rail within a second fishplate paral