Multi-function tool

What is claimed is: 1 . A multifunction tool, comprising: a first handle and a second handle, wherein each of the first and second handles comprise a non-linear track forming a slot; and a jaw assembly slidably coupled to the non-linear tracks of the first and second handles, wherein the jaw assembly is configured to slide within the slots of the first and second handles between a stowed position within the handles and a deployed position extending from the handles. 2 . The multi-function tool of claim 1 , wherein the non-linear track of the first and second handles each further comprise an angled track configured to function as a wedge against the jaw assembly as the jaw assembly slides from the stowed position to the deployed position. 3 . The multi-function tool of claim 2 , wherein the angled track of the first handle and the angled track of the second handle each have a track profile of less than fifty degrees. 4 . The multi-function tool of claim 3 , wherein the angled track of the first handle and the angled track of the second handle each have a track profile of forty-five degrees. 5 . The multi-function tool of claim 1 , wherein the jaw assembly comprises a pair of jaws pivotally coupled together, each of the jaws comprising a tang, wherein the tangs are configured to slidably engage the non-linear tracks of the first and second handles, and wherein each tang is configured to always be in contact with the track of one of the first and second handles while in each of the stowed position, the deployed position, and during a transition from the stowed position to the deployed position. 6 . The multi-function tool of claim 1 , further comprising a plurality of tools, each tool having a stowed position and a deployed position, wherein the first handle comprises a first channel having a first shape, and wherein the second handle comprises a second channel having a second shape. 7 . The multi-function tool of claim 6 , wherein the first shape is configured to compactly store a tool of the plurality of tools configured to be deployed using two hands. 8 . The multi-function tool of claim 7 , wherein the second shape is configured to store a tool of the plurality of tools less compactly than the first handle and configured to be deployed using only one hand. 9 . The multi-function tool of claim 8 , wherein the first channel of the first handle is U-shaped and the second channel of the second handle is W-shaped. 10 . The multi-function tool of claim 1 , further comprising: a driver having a stowed position and a deployed position; wherein with the two handles in the closed position and the driver in the deployed positon, the driver is in an on-center position relative to the two handles; and wherein with the two handles in the closed position and the driver in the stowed positon, the driver is not in an on-center position relative to the two handles. 11 . The multi-function tool of claim 10 , wherein the driver is pivotally coupled to the first handle and configured to pivot between the stowed position either within or alongside the first handle and the deployed position extending from the first handle. 12 . The multi-function tool of claim 11 , wherein the driver further comprises a shaft and a bit, and wherein the shaft is curved such that when the driver is in the deployed position, the bit has an on-center position relative to at least one of a combined mass of the first and second handles, a midpoint between an inner surface of the first handle and an inner surface of the second handle, a midpoint between an outer surface of the first handle and an outer surface of the second handle, and an axis defined by an interface point where a first implement of the jaw assembly interfaces with a second implement of the jaw assembly. 13 . The multi-function tool of claim 1 , wherein the first handle and the second handle each have an inner surface and an outer surface, the multi-function tool further comprising: a jaw assembly comprising a pair of jaws pivotally coupled together, each of the jaws comprising a tang having a wedge configured to interface with the inner surface of either the first or second handle to create an interference that pushes the jaws closed when the jaw assembly is slid from a stowed position to a deployed position. 14 . A multi-function tool, comprising: a first handle and a second handle pivotable between an open position and a closed position; a jaw assembly slidably coupled to the first and second handles, wherein the jaw assembly is configured to move between a stowed position within the handles and a deployed position extending from the handles; and a driver having a stowed position and a deployed position; wherein with the two handles in the closed position and the driver in the deployed positon, the driver is in an on-center position relative to the two handles; and wherein with the two handles in the closed position and the driver in the stowed positon, the driver is not in an on-center position relative to the two handles. 15 . The multi-function tool of claim 14 , wherein the driver is pivotally coupled to the first handle and configured to pivot between the stowed position either within or alongside the first handle and the deployed position extending from the first handle. 16 . The multi-function tool of claim 15 , wherein the driver further comprises a shaft and a bit, and wherein the shaft is curved such that when the driver is in the deployed position, the bit has an on-center position relative to a combined mass of the first and second handles. 17 . The multi-function tool of claim 15 , wherein the driver further comprises a shaft and a bit, and wherein the shaft is curved such that when the driver is in the deployed position, the bit has an on-center position relative to a midpoint between an inner surface of the first handle and an inner surface of the second handle. 18 . The multi-function tool of claim 15 , wherein the driver further comprises a shaft and a bit, and wherein the shaft is curved such that when the driver is in the deployed position, the bit has an on-center position relative to a midpoint between an outer surface of the first handle and an outer surface of the second handle. 19 . The multi-function tool of claim 15 , wherein the driver further comprises a shaft and a bit, and wherein the shaft is curved such that when the driver is in the deployed position, the bit has an on-center position relative to an axis defined by an interface point where a first implement of the jaw assembly interfaces with a second implement of the jaw assembly. 20 . A multi-function tool, comprising: a plurality of tools, each tool having a stowed position and a deployed position; a first handle comprising a non-linear track and a first channel having a first shape configured to compactly store a tool of the plurality of tools configured to be deployed using two hands; a second handle comprising a non-linear track and a second channel having a second shape configured to store a tool of the plurality of tools less compactly than the first handle and configured to be deployed using only one hand; a jaw assembly slidably coupled to the non-linear tracks of the first and second handles, wherein the jaw assembly is configured to slide within slots of the first and second handles between a stowed position within the handles and a deployed position extending from the handles, wherein the jaw assembly comprises a pair of jaws pivotally coupled together,