Stowable computer workstation

What is claimed is: 1. A stowable computer workstation (“SCW”) for a workplace, wherein the workplace includes an inner sidewall and a seat, the SCW comprising: a deployment arm configured to securely attach to the inner sidewall at a location forward to the seat, wherein the deployment arm has a first end rotatably coupled to the inner sidewall and a second end that is rotatable in a plane normal to the inner sidewall, wherein the deployment arm includes a track between the first end and the second end; a trolley moveably attached to the deployment arm, wherein the deployment arm includes a deployment mechanism for coupling a rotational direction of the deployment arm to a linear translation of the trolley along the track of the deployment arm; and a video display mount assembly attached to the trolley, wherein the deployment arm is configured to deploy the video display mount assembly in front of the seat when in a deployed position and to stow the video display mount assembly against the inner sidewall when in a stowed position. 2. The SCW of claim 1 , wherein the deployment mechanism is configured to slide the trolley along the deployment arm when the deployment arm is rotating such that the video display mounting assembly is translated along the deployment arm as the deployment arm is rotated between the stowed position and the deployed position. 3. The SCW of claim 2 , wherein the video display mount assembly includes a first mounting fixture and a second mounting fixture in a clamshell configuration, wherein a first video display is attached to the first mounting fixture, and wherein an input device or a second video display is attached to the second mounting fixture. 4. The SCW of claim 3 , wherein the second video display is attached to the second mounting fixture, wherein the first video display includes a first display screen and the second video display includes a second display screen, wherein the first mounting fixture and second mounting fixture of the video display mount assembly are configured to position the first display screen and the second display screen in an adjacent face-to-face position when the video display mount assembly is positioned in a closed position, wherein the first mounting fixture and second mounting fixture of the video display mount assembly is configured to position the first display screen in an approximately vertical position and the second display screen at a downward angle position when the video display mount assembly is positioned in an open position, and wherein the downward angle position of the second display screen is at an obtuse angle from the approximately vertical position of the first display screen. 5. The SCW of claim 4 , wherein the deployment mechanism includes a plurality of pulleys mounted to an underside of the deployment arm, a cable wound around the pulleys, ends of the cable secured to a non-rotatable portion of the inner sidewall, and the trolley secured to a point on the cable, and wherein the video display mount assembly includes a first portion of the video display mount assembly that includes an end of the first portion attached to the trolley, a cam, and a locking pin, and wherein the cam is configured to push the locking pin through a hole in the trolley and to engage an opening in the deployment arm when the hole in the trolley and opening in the deployment arm are aligned. 6. The SCW of claim 5 , wherein the non-rotatable portion of the inner sidewall is a post. 7. The SCW of claim 5 , wherein the first and the second video displays are flat panel video displays. 8. The SCW of claim 5 , wherein the second video display is a touch screen display corresponding to the input device. 9. The SCW of claim 3 , wherein the video display mount assembly includes the first video display attached to the first mounting fixture and a flat shelf attached to the second mounting fixture. 10. The SCW of claim 2 , wherein the video display mount assembly includes: a first portion having a first mounting fixture attached to the trolley, wherein the first mounting fixture is configured to attach to a first video display; and a second portion having a second mounting fixture, and a hinge, wherein the second portion is rotatably coupled to the hinge. 11. The SCW of claim 1 , wherein the inner sidewall includes a curvature and the video display mount assembly is configured to be stowed against the inner sidewall in the curvature of the inner sidewall. 12. The SCW of claim 1 , wherein the inner sidewall includes a storage space and the video display mount assembly is configured to be stowed against the inner sidewall within the storage space in the inner sidewall. 13. The SCW of claim 1 , wherein the deployment mechanism includes a plurality of pulleys mounted to an underside of the deployment arm, a cable wound around the pulleys, ends of the cable secured to a non-rotatable portion of the inner sidewall, and the trolley secured to a point on the cable. 14. The SCW of claim 13 , wherein the non-rotatable portion of the inner sidewall is a post. 15. A method for deploying a stowable computer workstation (“SCW”) within a workplace, wherein the workplace includes an inner sidewall and a seat, and the SCW has a deployment arm securely attached and rotatably coupled to the inner sidewall at a location forward to the seat, a trolley moveably attached to the deployment arm, and a video display mount assembly attached to the trolley, the deployment arm having a first end rotatably coupled to the inner sidewall, the method comprising: pulling the video display mount assembly from a stowed position against the inner sidewall to a deployed position in front of the seat; rotating a second end of the deployment arm from the inner sidewall in a rotational direction in a plane normal to the inner sidewall, the deployment arm including a track between the first end and the second end; and sliding the trolley with a translation motion along the track of the deployment arm using a deployment mechanism that couples the rotating of the deployment arm to the translation motion of the trolley along the deployment arm. 16. The method of claim 15 , wherein rotating the deployment arm includes pivoting the deployment arm in a rotational direction away from the inner sidewall along a pivot point until the deployment arm is approximately normal to the inner sidewall, and wherein sliding the trolley includes moving the trolley in a linear translation along the deployment arm that is coupled to the rotating of the deployment arm. 17. The method of claim 16 wherein rotating the deployment arm and the sliding of the trolley happen at the same time the video display mount assembly is pulled from the stowed position against the inner sidewall. 18. The method of claim 17 , wherein opening the video display mount assembly includes pivoting a portion of the video display mount assembly along a hinge in a rotational direction that is in a direction normal to the deployment arm. 19. The method of claim 18 , wherein pivoting the second portion of the video display mount assembly along the hinge includes pivoting the portion of the video display mount assembly from a closed position to an open position. 20. The method of claim 19 , wherein sliding the trolley includes locking the trolley at a position that is approximately at an end of the deployment arm. 21. The method of claim 15 , wherein sliding the trolley along the deployment arm using the deployment mechanism includes utilizing a plural