Pedal path of a stepping machine

What is claimed is: 1. A vertical stepping machine, comprising: a frame; a crank wheel connected to the frame, the crank wheel having an axis of rotation; a crank arm extending away from the axis of rotation; a pedal beam connected to the crank arm; a linkage rotatably connected at a first end of the linkage to the frame at a fixed frame location and to the pedal beam at a second end of the linkage at a fixed pedal beam location; and a first linkage member of the linkage exerting a force on the pedal beam to change an angular orientation of the pedal beam relative to the frame when the crank wheel rotates, wherein the first linkage member is stationary with respect to the pedal beam. 2. The vertical stepping machine of claim 1 , further comprising a rotary resistance mechanism connected to the frame. 3. The vertical stepping machine of claim 2 , wherein the rotary resistance mechanism comprises a flywheel. 4. The vertical stepping machine of claim 2 , wherein the rotary resistance mechanism comprises at least one fan blade. 5. The vertical stepping machine of claim 2 , wherein the rotary resistance mechanism is positioned above the crank wheel when the vertical stepping machine is in an upright position. 6. The vertical stepping machine of claim 1 , wherein the linkage further comprising a second linkage member connected to the first linkage member at a pivot wherein the first linkage member is connected to the pedal beam at the fixed pedal beam location, and wherein the second linkage member is connected to the frame at the fixed frame location. 7. The vertical stepping machine of claim 6 , wherein the first linkage member is longer than the second linkage member. 8. The vertical stepping machine of claim 1 , wherein the pedal beam is configured to travel along an elliptical path as the crank wheel rotates, wherein the elliptical path has a vertical major axis and a horizontal minor axis when the vertical stepping machine is in an upright position. 9. The vertical stepping machine of claim 1 , further comprising an arm linkage member connected to a support arm along a length of the first linkage member at an arm pivot connection, wherein the arm linkage member is transverse to the first linkage member. 10. The vertical stepping machine of claim 1 , further comprising an extendable member connected to a base structure of the frame and to the frame; wherein the extendable member changes an incline of the vertical stepping machine when the extendable member is actuated to change its longitudinal axis. 11. The vertical stepping machine of claim 8 , further comprising a rear portion of the pedal beam that tilts downward at a bottom of the elliptical path and the rear portion of the pedal beam tilts upwards at a top of the elliptical path. 12. A vertical stepping machine, comprising: a frame; a crank wheel connected to the frame, the crank wheel having an axis of rotation; a crank arm extending away from the axis of rotation; a pedal beam connected to the crank arm; a linkage rotatably connected at a first end of the linkage to the frame at a fixed frame location and to the pedal beam at a second end of the linkage at a fixed pedal beam location; and a first linkage member of the linkage exerting a force on the pedal beam to change an angular orientation of the pedal beam relative to the frame when the crank wheel rotates, wherein the linkage is connected to the pedal beam proximate to the crank arm. 13. A vertical stepping machine, comprising: a frame; a crank wheel connected to the frame, the crank wheel having an axis of rotation; a crank arm extending away from the axis of rotation; a pedal beam connected to the crank arm; a linkage rotatably connected at a first end of the linkage to the frame at a fixed frame location and to the pedal beam at a second end of the linkage at a fixed pedal beam location; the linkage including: a first linkage member with a length configured to exert a force on the pedal beam to change an angular orientation of the pedal beam relative to the frame when the crank wheel rotates; a second linkage member connected to the first linkage member at a pivot; wherein the first linkage member connects to the pedal beam and the second linkage member connects to the frame at the fixed frame location; and a rotary resistance mechanism connected to the frame above the crank wheel when the vertical stepping machine is in an upright position. 14. The vertical stepping machine of claim 13 , wherein the pedal beam is positionally fixed relative to the first linkage member. 15. The vertical stepping machine of claim 13 , wherein the pedal beam is configured to travel along an elliptical path as the crank wheel rotates, wherein the elliptical path has a vertical major axis and a horizontal minor axis when the vertical stepping machine is in an upright position. 16. The vertical stepping machine of claim 13 , further comprising a rear portion of the pedal beam that tilts downward at a bottom of an elliptical path and the rear portion of the pedal beam tilts upwards at a top of the elliptical path. 17. The vertical stepping machine of claim 13 , wherein the linkage is connected to the pedal beam proximate to the crank arm. 18. The vertical stepping machine of claim 1 , wherein the first linkage member is connected to the crank arm. 19. The vertical stepping machine of claim 2 , further comprising a first pulley wheel in connection with the crank wheel via a first belt, a second pulley wheel in connection with the first pulley wheel via a pulley axel, and a third pulley wheel in communication with the second pulley wheel via a second belt, the third pulley wheel connected to the rotary resistance mechanism via a rotary resistance mechanism axle. 20. The vertical stepping machine of claim 2 , further comprising an illuminated feature on the rotary resistance mechanism.