Virtual reality pipe welding simulator and setup

What is claimed is: 1. A virtual reality welding simulator comprising: a logic processor based subsystem operable to execute coded instructions for generating an interactive welding environment that emulates a virtual welding activity at an interface of a first virtual work piece and a second virtual work piece defining a virtual weld joint; displaying means operatively connected to the logic processor based subsystem for visually depicting the interactive welding environment, wherein said displaying means depicts the virtual weld joint; and a hand-held input device for performing the virtual welding activity on the virtual weld joint in real time; wherein the first virtual work piece is a flat plate, wherein the second virtual work piece is a cylindrical body, and wherein the virtual welding activity includes a first virtual welding activity on the virtual weld joint and a second virtual welding activity on the virtual weld ioint; wherein the first virtual welding activity and the second virtual welding activity are connected by at least one tie-in operation. 2. The simulator as defined in claim 1 , wherein the hand-held input device emulates a plurality of controls for specifying parameters relating to at least one of the welding environment and the virtual welding activity. 3. The simulator as defined in claim 2 , wherein the logic processor based subsystem further comprises restricting access to at least one of the controls based on a user to enhance learning objectives for the user. 4. The simulator as defined in claim 3 , wherein the logic processor based subsystem further comprises teaching an interaction or reaction based on at least one of a visual, audible, and physical change to ensure that the user can properly setup the interactive welding environment or can effect error recovery. 5. The simulator as defined in claim 4 , wherein the logic processor based subsystem further comprises virtual calculators or tables that allow input and provide an output based on entered values. 6. The simulator as defined in claim 4 , wherein the logic processor based subsystem identifies incorrect setup parameters or combination of parameters input by the user. 7. The simulator as defined in claim 6 , wherein the logic processor based subsystem determines the proper setup parameters or combination of parameters which should have been entered by the user. 8. The simulator as defined in claim 7 , wherein the logic processor based subsystem provides at least one of a visual, audio, and physical indicator of the proper setup parameters or combination of parameters. 9. The simulator as defined in claim 1 , which further comprises a simulated camera-based system to track a path of the weld. 10. The simulator of claim 1 which comprises multi-language capabilities. 11. The simulator of claim 1 , wherein the cylindrical body is a pipe.