Monopodic surface preparation apparatuses and methods of operating the same

What is claimed is: 1. A monopodic surface preparation apparatus comprising: a linear actuator comprising a tool-end and a base-end, wherein the linear actuator is moveable between a retracted position and an extended position; a joint coupled to the base-end of the linear actuator; a base coupled to the joint, wherein the linear actuator is pivotally moveable relative to the base when the linear actuator is in the extended position; a sleeve coupled to the linear actuator, wherein the joint is received within the sleeve to restrict articulation of the joint and pivotal movement of the linear actuator relative to the base when the linear actuator is in the retracted position; a rotary surface preparation tool coupleable to the tool-end of the linear actuator, wherein the rotary surface preparation tool is linearly moveable using the linear actuator and is pivotally moveable relative to the linear actuator; a control handle coupled to the linear actuator and configured to pivot the linear actuator relative to the base when the linear actuator is in the extended position; an actuator-controller coupled to the control handle and configured to selectively actuate the linear actuator; and a tool-controller coupled to the control handle and configured to selectively energize the rotary surface preparation tool. 2. The monopodic surface preparation apparatus of claim 1 , wherein the linear actuator further comprises: a cylinder comprising a cap-end and a rod-end, wherein the cap-end of the cylinder defines the tool-end of the linear actuator; and a rod extending from the rod-end of the cylinder and comprising a working-end, wherein the working-end defines the base-end of the linear actuator and the rod is moveable relative to the cylinder between the retracted position and the extended position. 3. The monopodic surface preparation apparatus of claim 1 , further comprising a seat located on the base, wherein the sleeve engages the seat when the linear actuator is in the retracted position. 4. The monopodic surface preparation apparatus of claim 3 , wherein: the seat comprises a protrusion extending from the base; and the protrusion is received within the sleeve when the linear actuator is in the retracted position. 5. The monopodic surface preparation apparatus of claim 3 , wherein: the seat comprises a recess depending from the base; and the sleeve is received within the recess when the linear actuator is in the retracted position. 6. The monopodic surface preparation apparatus of claim 1 , further comprising a tool mount coupled to the tool-end of the linear actuator; and wherein: the rotary surface preparation tool is removably coupled to the tool mount; and the tool mount is configured to enable rotation of the rotary surface preparation tool about two axes. 7. The monopodic surface preparation apparatus of claim 6 , wherein: the tool mount comprises: a first arm having a proximal end, coupled to the linear actuator, and a distal end; a second arm having a proximal end, coupled to the distal end of the first arm, and a distal end, wherein the second arm is rotatable relative to the first arm about a roll axis; a tool holder coupled to the distal end of the second arm, wherein the tool holder is rotatable relative to the second arm about a tilt axis; and the rotary surface preparation tool removably coupled to the tool holder. 8. The monopodic surface preparation apparatus of claim 7 , wherein: the tool holder comprises: an inner clamp member coupled to the distal end of the second arm, wherein the inner clamp member is rotatable relative to the second arm about the tilt axis; and an outer clamp member configured to be releasably coupled to the inner clamp member; and the rotary surface preparation tool is clamped between the inner clamp member and the outer clamp member. 9. The monopodic surface preparation apparatus of claim 1 , further comprising a strap coupled to the rotary surface preparation tool and configured to fix the rotary surface preparation tool in an energized state. 10. The monopodic surface preparation apparatus of claim 1 , wherein: the rotary surface preparation tool is a pneumatic-powered tool; and the tool-controller comprises: a pneumatic tool-valve coupled to the rotary surface preparation tool and configured to be actuated between an open position to supply pressurized air to the rotary surface preparation tool for energizing the rotary surface preparation tool and a closed position to restrict pressurized air to the rotary surface preparation tool; and a tool-handle lever operably coupled with the pneumatic tool-valve and configured to selectively actuate the pneumatic tool-valve between the open position and the closed position. 11. The monopodic surface preparation apparatus of claim 10 , wherein the tool-controller further comprises biasing mechanism configured to bias the pneumatic tool-valve in the closed position. 12. The monopodic surface preparation apparatus of claim 1 , wherein: the linear actuator is a pneumatic actuator; and the actuator-controller comprises: a pneumatic actuator-valve coupled to the linear actuator and configured to be actuated between an open position to supply pressurized air to the linear actuator for moving the linear actuator to the extended position and a closed position to restrict pressurized air to the linear actuator; and an actuator-handle lever operably coupled with the pneumatic actuator-valve and configured to selectively actuate the pneumatic actuator-valve between the open position and the closed position. 13. The monopodic surface preparation apparatus of claim 12 , wherein the actuator-controller further comprises a transmission component mechanically coupling the actuator-handle lever and the pneumatic actuator-valve. 14. The monopodic surface preparation apparatus of claim 12 , wherein the actuator-controller further comprises biasing mechanism configured to bias the pneumatic actuator-valve in the closed position. 15. The monopodic surface preparation apparatus of claim 12 , wherein, when in the closed position, the pneumatic actuator-valve is configured to exhaust pressurized air from the linear actuator for passively moving the linear actuator to the retracted position. 16. The monopodic surface preparation apparatus of claim 12 , wherein, when in the closed position, the pneumatic actuator-valve is configured to supply pressurized air to the linear actuator for actively moving the linear actuator to the retracted position. 17. A monopodic surface preparation apparatus comprising: a linear actuator comprising a tool-end and a base-end, wherein the linear actuator is moveable between a retracted position and an extended position; a joint coupled to the base-end of the linear actuator; a base coupled to the joint, wherein the base is configured to support the linear actuator and the linear actuator is pivotally moveable relative to the base when the linear actuator is in the extended position; a tool mount coupled to the tool-end of the linear actuator, wherein a rotary surface preparation tool is coupleable to the tool mount; a sleeve coupled to the linear actuator, wherein the joint is received within the sleeve to restrict articulation of the joint and pivotal movement of the linear actuator relative to the base when the linear actuator is in the retracted position; a control handle coupled to the linear actuator and configured to pivot the linear actuator relative to the base when the linear actuator is in the extended position; an actua